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go/src/cmd/compile/internal/gc/ssa.go

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[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// Copyright 2015 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gc
import (
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
"encoding/binary"
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
"fmt"
[dev.regabi] cmd/compile: prep refactoring for switching to go/constant This CL replaces gc.Ctype (along with its CTINT, etc. constants) with constant.Kind; renames Val.Ctype to Val.Kind; and replaces a handful of abstraction-violating patterns that can be readily expressed differently. The next commit will actually replace Val with constant.Value. Passes toolstash-check. [git-generate] cd src/cmd/compile/internal/gc sed -i 's/type Ctype uint8/type Ctype = constant.Kind/' const.go goimports -w const.go rf ' inline -rm Ctype mv Val.Ctype Val.Kind ex import "go/constant"; \ CTxxx -> constant.Unknown; \ CTINT -> constant.Int; \ CTFLT -> constant.Float; \ CTCPLX -> constant.Complex; \ CTBOOL -> constant.Bool; \ CTSTR -> constant.String rm CTxxx CTINT CTFLT CTCPLX CTBOOL CTSTR ex import "cmd/compile/internal/types"; \ var t *types.Type; \ var v, v2 Val; \ v.U.(*Mpint).Cmp(maxintval[TINT]) > 0 -> doesoverflow(v, types.Types[TINT]); \ v.U.(*Mpint).Cmp(v2.U.(*Mpint)) > 0 -> compareOp(v, OGT, v2); \ maxintval[t.Etype].Cmp(maxintval[TUINT]) <= 0 -> t.Size() <= types.Types[TUINT].Size(); \ maxintval[t.Etype].Cmp(maxintval[TUINT]) > 0 -> t.Size() > types.Types[TUINT].Size(); ' go test cmd/compile -u Change-Id: I6c22ec0597508845f88eee639a0d76cbaa66d08f Reviewed-on: https://go-review.googlesource.com/c/go/+/272653 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-23 13:42:43 -08:00
"go/constant"
[dev.ssa] cmd/compile: add HTML SSA printer This is an initial implementation. There are many rough edges and TODOs, which will hopefully be polished out with use. Fixes #12071. Change-Id: I1d6fd5a343063b5200623bceef2c2cfcc885794e Reviewed-on: https://go-review.googlesource.com/13472 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-10 12:15:52 -07:00
"html"
[dev.ssa] cmd/compile: add GOSSAFUNC and GOSSAPKG These temporary environment variables make it possible to enable using SSA-generated code for a particular function or package without having to rebuild the compiler. This makes it possible to start bulk testing SSA generated code. First, bump up the default stack size (_StackMin in runtime/stack2.go) to something large like 32768, because without stackmaps we can't grow stacks. Then run something like: for pkg in `go list std` do GOGC=off GOSSAPKG=`basename $pkg` go test -a $pkg done When a test fails, you can re-run those tests, selectively enabling one function after another, until you find the one that is causing trouble. Doing this right now yields some interesting results: * There are several packages for which we generate some code and whose tests pass. Yay! * We can generate code for encoding/base64, but tests there fail, so there's a bug to fix. * Attempting to build the runtime yields a panic during codegen: panic: interface conversion: ssa.Location is nil, not *ssa.LocalSlot * The top unimplemented codegen items are (simplified): 59 genValue not implemented: REPMOVSB 18 genValue not implemented: REPSTOSQ 14 genValue not implemented: SUBQ 9 branch not implemented: If v -> b b. Control: XORQconst <bool> [1] 8 genValue not implemented: MOVQstoreidx8 4 branch not implemented: If v -> b b. Control: SETG <bool> 3 branch not implemented: If v -> b b. Control: SETLE <bool> 2 load flags not implemented: LoadReg8 <flags> 2 genValue not implemented: InvertFlags <flags> 1 store flags not implemented: StoreReg8 <flags> 1 branch not implemented: If v -> b b. Control: SETGE <bool> Change-Id: Ib64809ac0c917e25bcae27829ae634c70d290c7f Reviewed-on: https://go-review.googlesource.com/12547 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-22 13:13:53 -07:00
"os"
cmd/compile: allow directory specification for GOSSAFUNC output This was useful for debugging failures occurring during make.bash. The added flush also ensures that any hints in the GOSSAFUNC output are flushed before fatal exit. The environment variable GOSSADIR specifies where the SSA html debugging files should be placed. To avoid collisions, each one is written into the [package].[functionOrMethod].html, where [package] is the filepath separator separated package name, function is the function name, and method is either (*Type).Method, or Type.Method, as appropriate. Directories are created as necessary to make this work. Change-Id: I420927426b618b633bb1ffc51cf0f223b8f6d49c Reviewed-on: https://go-review.googlesource.com/c/go/+/252338 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-31 14:29:58 -04:00
"path/filepath"
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
"sort"
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
cmd/compile: add framework for logging optimizer (non)actions to LSP This is intended to allow IDEs to note where the optimizer was not able to improve users' code. There may be other applications for this, for example in studying effectiveness of optimizer changes more quickly than running benchmarks, or in verifying that code changes did not accidentally disable optimizations in performance-critical code. Logging of nilcheck (bad) for amd64 is implemented as proof-of-concept. In general, the intent is that optimizations that didn't happen are what will be logged, because that is believed to be what IDE users want. Added flag -json=version,dest Check that version=0. (Future compilers will support a few recent versions, I hope that version is always <=3.) Dest is expected to be one of: /path (or \path in Windows) will create directory /path and fill it w/ json files file://path will create directory path, intended either for I:\dont\know\enough\about\windows\paths trustme_I_know_what_I_am_doing_probably_testing Not passing an absolute path name usually leads to json splattered all over source directories, or failure when those directories are not writeable. If you want a foot-gun, you have to ask for it. The JSON output is directed to subdirectories of dest, where each subdirectory is net/url.PathEscape of the package name, and each for each foo.go in the package, net/url.PathEscape(foo).json is created. The first line of foo.json contains version and context information, and subsequent lines contains LSP-conforming JSON describing the missing optimizations. Change-Id: Ib83176a53a8c177ee9081aefc5ae05604ccad8a0 Reviewed-on: https://go-review.googlesource.com/c/go/+/204338 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-10-24 13:48:17 -04:00
"bufio"
"bytes"
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
"cmd/compile/internal/base"
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
"cmd/compile/internal/ir"
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Semi-regular merge of tip to dev.ssa. Complicated a bit by the move of cmd/internal/* to cmd/compile/internal/*. Change-Id: I1c66d3c29bb95cce4a53c5a3476373aa5245303d
2015-05-28 13:49:20 -07:00
"cmd/compile/internal/ssa"
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
"cmd/compile/internal/types"
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
"cmd/internal/obj"
cmd/compile, runtime: use more registers for amd64 write barrier calls The compiler-inserted write barrier calls use a special ABI for speed and to minimize the binary size impact. runtime.gcWriteBarrier takes its args in DI and AX. This change adds gcWriteBarrier wrapper functions, varying only in the register used for the second argument. (Allowing variation in the first argument doesn't offer improvements, which is convenient, as it avoids quadratic API growth.) This reduces the number of register copies. The goals are reduced binary size via reduced register pressure/copies. One downside to this change is that when the write barrier is on, we may bounce through several different write barrier wrappers, which is bad for the instruction cache. Package runtime write barrier benchmarks for this change: name old time/op new time/op delta WriteBarrier-8 16.6ns ± 6% 15.6ns ± 6% -5.73% (p=0.000 n=97+99) BulkWriteBarrier-8 4.37ns ± 7% 4.22ns ± 8% -3.45% (p=0.000 n=96+99) However, I don't particularly trust these numbers. I ran runtime.BenchmarkWriteBarrier multiple times as I rebased this change, and noticed that the results have high variance depending on the parent change, perhaps due to aligment. This change was stress tested with GOGC=1 GODEBUG=gccheckmark=1 go test std. This change reduces binary sizes: file before after Δ % addr2line 4308720 4296688 -12032 -0.279% api 5965592 5945368 -20224 -0.339% asm 5148088 5025464 -122624 -2.382% buildid 2848760 2844904 -3856 -0.135% cgo 4828968 4812840 -16128 -0.334% compile 19754720 19529744 -224976 -1.139% cover 5256840 5236600 -20240 -0.385% dist 3670312 3658264 -12048 -0.328% doc 4669608 4657576 -12032 -0.258% fix 3377976 3365944 -12032 -0.356% link 6614888 6586472 -28416 -0.430% nm 4258368 4254528 -3840 -0.090% objdump 4656336 4644304 -12032 -0.258% pack 2295176 2295432 +256 +0.011% pprof 14762356 14709364 -52992 -0.359% test2json 2824456 2820600 -3856 -0.137% trace 11684404 11643700 -40704 -0.348% vet 8284760 8252248 -32512 -0.392% total 115210328 114580040 -630288 -0.547% This change improves compiler performance: name old time/op new time/op delta Template 208ms ± 3% 207ms ± 3% -0.40% (p=0.030 n=43+44) Unicode 80.2ms ± 3% 81.3ms ± 3% +1.25% (p=0.000 n=41+44) GoTypes 699ms ± 3% 694ms ± 2% -0.71% (p=0.016 n=42+37) Compiler 3.26s ± 2% 3.23s ± 2% -0.86% (p=0.000 n=43+45) SSA 6.97s ± 1% 6.93s ± 1% -0.63% (p=0.000 n=43+45) Flate 134ms ± 3% 133ms ± 2% ~ (p=0.139 n=45+42) GoParser 165ms ± 2% 164ms ± 1% -0.79% (p=0.000 n=45+40) Reflect 434ms ± 4% 435ms ± 4% ~ (p=0.937 n=44+44) Tar 181ms ± 2% 181ms ± 2% ~ (p=0.702 n=43+45) XML 244ms ± 2% 244ms ± 2% ~ (p=0.237 n=45+44) [Geo mean] 403ms 402ms -0.29% name old user-time/op new user-time/op delta Template 271ms ± 2% 268ms ± 1% -1.40% (p=0.000 n=42+42) Unicode 117ms ± 3% 116ms ± 5% ~ (p=0.066 n=45+45) GoTypes 948ms ± 2% 936ms ± 2% -1.30% (p=0.000 n=41+40) Compiler 4.26s ± 1% 4.21s ± 2% -1.25% (p=0.000 n=37+45) SSA 9.52s ± 2% 9.41s ± 1% -1.18% (p=0.000 n=44+45) Flate 167ms ± 2% 165ms ± 2% -1.15% (p=0.000 n=44+41) GoParser 201ms ± 2% 198ms ± 1% -1.40% (p=0.000 n=43+43) Reflect 563ms ± 8% 560ms ± 7% ~ (p=0.206 n=45+44) Tar 224ms ± 2% 222ms ± 2% -0.81% (p=0.000 n=45+45) XML 308ms ± 2% 304ms ± 1% -1.17% (p=0.000 n=42+43) [Geo mean] 525ms 519ms -1.08% name old alloc/op new alloc/op delta Template 36.3MB ± 0% 36.3MB ± 0% ~ (p=0.421 n=5+5) Unicode 28.4MB ± 0% 28.3MB ± 0% ~ (p=0.056 n=5+5) GoTypes 121MB ± 0% 121MB ± 0% -0.14% (p=0.008 n=5+5) Compiler 567MB ± 0% 567MB ± 0% -0.06% (p=0.016 n=4+5) SSA 1.26GB ± 0% 1.26GB ± 0% -0.07% (p=0.008 n=5+5) Flate 22.9MB ± 0% 22.8MB ± 0% ~ (p=0.310 n=5+5) GoParser 28.0MB ± 0% 27.9MB ± 0% -0.09% (p=0.008 n=5+5) Reflect 78.4MB ± 0% 78.4MB ± 0% -0.03% (p=0.008 n=5+5) Tar 34.2MB ± 0% 34.2MB ± 0% -0.05% (p=0.008 n=5+5) XML 44.4MB ± 0% 44.4MB ± 0% -0.04% (p=0.016 n=5+5) [Geo mean] 76.4MB 76.3MB -0.05% name old allocs/op new allocs/op delta Template 356k ± 0% 356k ± 0% -0.13% (p=0.008 n=5+5) Unicode 326k ± 0% 326k ± 0% -0.07% (p=0.008 n=5+5) GoTypes 1.24M ± 0% 1.24M ± 0% -0.24% (p=0.008 n=5+5) Compiler 5.30M ± 0% 5.28M ± 0% -0.34% (p=0.008 n=5+5) SSA 11.9M ± 0% 11.9M ± 0% -0.16% (p=0.008 n=5+5) Flate 226k ± 0% 225k ± 0% -0.12% (p=0.008 n=5+5) GoParser 287k ± 0% 286k ± 0% -0.29% (p=0.008 n=5+5) Reflect 930k ± 0% 929k ± 0% -0.05% (p=0.008 n=5+5) Tar 332k ± 0% 331k ± 0% -0.12% (p=0.008 n=5+5) XML 411k ± 0% 411k ± 0% -0.12% (p=0.008 n=5+5) [Geo mean] 771k 770k -0.16% For some packages, this change significantly reduces the size of executable text. Examples: file before after Δ % cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% Full listing: file before after Δ % container/ring.s 1890 1870 -20 -1.058% container/list.s 5366 5390 +24 +0.447% internal/cpu.s 3298 3295 -3 -0.091% internal/testlog.s 1507 1501 -6 -0.398% image/color.s 8281 8248 -33 -0.399% runtime.s 480970 480075 -895 -0.186% sync.s 16497 16408 -89 -0.539% internal/singleflight.s 2591 2577 -14 -0.540% math/rand.s 10456 10438 -18 -0.172% cmd/go/internal/par.s 2801 2790 -11 -0.393% internal/reflectlite.s 28477 28417 -60 -0.211% errors.s 2750 2736 -14 -0.509% internal/oserror.s 446 434 -12 -2.691% sort.s 17061 17046 -15 -0.088% io.s 17063 16999 -64 -0.375% vendor/golang.org/x/crypto/hkdf.s 1962 1936 -26 -1.325% text/tabwriter.s 9617 9574 -43 -0.447% hash/crc64.s 3414 3408 -6 -0.176% hash/crc32.s 6657 6651 -6 -0.090% bytes.s 31932 31863 -69 -0.216% strconv.s 53158 52799 -359 -0.675% strings.s 42829 42665 -164 -0.383% encoding/ascii85.s 4833 4791 -42 -0.869% vendor/golang.org/x/text/transform.s 16810 16724 -86 -0.512% path.s 6848 6845 -3 -0.044% encoding/base32.s 9658 9592 -66 -0.683% bufio.s 23051 22908 -143 -0.620% compress/bzip2.s 11773 11764 -9 -0.076% image.s 37565 37502 -63 -0.168% syscall.s 82359 82279 -80 -0.097% regexp/syntax.s 83573 82930 -643 -0.769% image/jpeg.s 36535 36490 -45 -0.123% regexp.s 64396 64214 -182 -0.283% time.s 82724 82622 -102 -0.123% plugin.s 6539 6536 -3 -0.046% context.s 10959 10865 -94 -0.858% internal/poll.s 24286 24270 -16 -0.066% reflect.s 168304 167927 -377 -0.224% internal/fmtsort.s 7416 7376 -40 -0.539% os.s 52465 51787 -678 -1.292% cmd/go/internal/lockedfile/internal/filelock.s 2326 2317 -9 -0.387% os/signal.s 4657 4648 -9 -0.193% runtime/debug.s 6040 5998 -42 -0.695% encoding/binary.s 30838 30801 -37 -0.120% vendor/golang.org/x/net/route.s 23694 23491 -203 -0.857% path/filepath.s 17895 17889 -6 -0.034% cmd/vendor/golang.org/x/sys/unix.s 78125 78109 -16 -0.020% io/ioutil.s 6999 6996 -3 -0.043% encoding/base64.s 12094 12007 -87 -0.719% crypto/cipher.s 20466 20372 -94 -0.459% cmd/go/internal/robustio.s 2672 2669 -3 -0.112% encoding/pem.s 9302 9286 -16 -0.172% internal/obscuretestdata.s 1719 1695 -24 -1.396% crypto/aes.s 11014 11002 -12 -0.109% os/exec.s 29388 29231 -157 -0.534% cmd/internal/browser.s 2266 2260 -6 -0.265% internal/goroot.s 4601 4592 -9 -0.196% vendor/golang.org/x/crypto/chacha20poly1305.s 8945 8942 -3 -0.034% cmd/vendor/golang.org/x/crypto/ssh/terminal.s 27226 27195 -31 -0.114% index/suffixarray.s 36431 36411 -20 -0.055% fmt.s 77017 76709 -308 -0.400% encoding/hex.s 6241 6154 -87 -1.394% compress/lzw.s 7133 7069 -64 -0.897% database/sql/driver.s 18888 18877 -11 -0.058% net/url.s 29838 29739 -99 -0.332% debug/plan9obj.s 8329 8279 -50 -0.600% encoding/csv.s 12986 12902 -84 -0.647% debug/gosym.s 25403 25330 -73 -0.287% compress/flate.s 51192 50970 -222 -0.434% vendor/golang.org/x/net/dns/dnsmessage.s 86769 86208 -561 -0.647% compress/gzip.s 9791 9758 -33 -0.337% compress/zlib.s 7310 7277 -33 -0.451% archive/zip.s 42356 42166 -190 -0.449% debug/dwarf.s 108259 107730 -529 -0.489% encoding/json.s 106378 105910 -468 -0.440% os/user.s 14751 14724 -27 -0.183% database/sql.s 99011 98404 -607 -0.613% log.s 9466 9423 -43 -0.454% debug/pe.s 31272 31182 -90 -0.288% debug/macho.s 32764 32608 -156 -0.476% encoding/gob.s 136976 136517 -459 -0.335% vendor/golang.org/x/text/unicode/bidi.s 27318 27276 -42 -0.154% archive/tar.s 71416 70975 -441 -0.618% vendor/golang.org/x/net/http2/hpack.s 23892 23848 -44 -0.184% vendor/golang.org/x/text/secure/bidirule.s 3354 3351 -3 -0.089% mime/quotedprintable.s 5960 5925 -35 -0.587% net/http/internal.s 5874 5853 -21 -0.358% math/big.s 184147 183692 -455 -0.247% debug/elf.s 63775 63567 -208 -0.326% mime.s 39802 39709 -93 -0.234% encoding/xml.s 111038 110713 -325 -0.293% crypto/dsa.s 6044 6029 -15 -0.248% go/token.s 12139 12077 -62 -0.511% crypto/rand.s 6889 6866 -23 -0.334% go/scanner.s 19030 19008 -22 -0.116% flag.s 22320 22236 -84 -0.376% vendor/golang.org/x/text/unicode/norm.s 66652 66391 -261 -0.392% crypto/rsa.s 31671 31650 -21 -0.066% crypto/elliptic.s 51553 51403 -150 -0.291% internal/xcoff.s 22950 22822 -128 -0.558% go/constant.s 43750 43689 -61 -0.139% encoding/asn1.s 57086 57035 -51 -0.089% runtime/trace.s 2609 2603 -6 -0.230% crypto/x509/pkix.s 10458 10471 +13 +0.124% image/gif.s 27544 27385 -159 -0.577% vendor/golang.org/x/net/idna.s 24558 24502 -56 -0.228% image/png.s 42775 42685 -90 -0.210% vendor/golang.org/x/crypto/cryptobyte.s 33616 33493 -123 -0.366% go/ast.s 80684 80449 -235 -0.291% net/internal/socktest.s 16571 16535 -36 -0.217% crypto/ecdsa.s 11948 11936 -12 -0.100% text/template/parse.s 95138 94002 -1136 -1.194% runtime/pprof.s 59702 59639 -63 -0.106% testing.s 68427 68088 -339 -0.495% internal/testenv.s 5620 5596 -24 -0.427% testing/internal/testdeps.s 3312 3294 -18 -0.543% internal/trace.s 78473 78239 -234 -0.298% testing/iotest.s 4968 4908 -60 -1.208% os/signal/internal/pty.s 3011 2990 -21 -0.697% testing/quick.s 12179 12125 -54 -0.443% cmd/internal/bio.s 9286 9274 -12 -0.129% cmd/internal/src.s 17684 17663 -21 -0.119% cmd/internal/goobj2.s 12588 12558 -30 -0.238% cmd/internal/objabi.s 16408 16390 -18 -0.110% go/printer.s 77417 77308 -109 -0.141% go/parser.s 80045 79113 -932 -1.164% go/format.s 5434 5419 -15 -0.276% cmd/internal/goobj.s 26146 25954 -192 -0.734% runtime/pprof/internal/profile.s 102518 102178 -340 -0.332% text/template.s 95343 94935 -408 -0.428% cmd/internal/dwarf.s 31718 31572 -146 -0.460% cmd/vendor/golang.org/x/arch/arm/armasm.s 45240 45151 -89 -0.197% internal/lazytemplate.s 1470 1457 -13 -0.884% cmd/vendor/golang.org/x/arch/ppc64/ppc64asm.s 37253 37220 -33 -0.089% cmd/asm/internal/flags.s 2593 2590 -3 -0.116% cmd/asm/internal/lex.s 25068 24921 -147 -0.586% cmd/internal/buildid.s 18536 18263 -273 -1.473% cmd/vendor/golang.org/x/arch/x86/x86asm.s 80209 80105 -104 -0.130% go/doc.s 75140 74585 -555 -0.739% cmd/internal/edit.s 3893 3899 +6 +0.154% html/template.s 89377 88809 -568 -0.636% cmd/vendor/golang.org/x/arch/arm64/arm64asm.s 117998 117824 -174 -0.147% cmd/internal/obj.s 115015 114290 -725 -0.630% go/build.s 69379 68862 -517 -0.745% cmd/internal/objfile.s 48106 47982 -124 -0.258% cmd/cover.s 46239 46113 -126 -0.272% cmd/addr2line.s 2845 2833 -12 -0.422% cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/riscv.s 63834 63006 -828 -1.297% cmd/compile/internal/syntax.s 146582 145456 -1126 -0.768% cmd/internal/obj/wasm.s 44117 44066 -51 -0.116% cmd/cgo.s 242645 241653 -992 -0.409% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% net.s 295972 292010 -3962 -1.339% go/types.s 321371 319432 -1939 -0.603% vendor/golang.org/x/net/http/httpproxy.s 9450 9423 -27 -0.286% net/textproto.s 19455 19406 -49 -0.252% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% go/internal/srcimporter.s 6475 6409 -66 -1.019% log/syslog.s 8017 7929 -88 -1.098% cmd/compile/internal/logopt.s 10183 10162 -21 -0.206% net/mail.s 24085 23948 -137 -0.569% mime/multipart.s 21527 21420 -107 -0.497% cmd/internal/obj/s390x.s 127610 127757 +147 +0.115% go/internal/gcimporter.s 34913 34548 -365 -1.045% vendor/golang.org/x/net/nettest.s 28103 28016 -87 -0.310% cmd/go/internal/cfg.s 9967 9916 -51 -0.512% cmd/api.s 39703 39603 -100 -0.252% go/internal/gccgoimporter.s 56470 56120 -350 -0.620% go/importer.s 2077 2056 -21 -1.011% cmd/compile/internal/types.s 48202 47282 -920 -1.909% cmd/go/internal/str.s 4341 4320 -21 -0.484% cmd/internal/obj/x86.s 89440 88625 -815 -0.911% cmd/go/internal/base.s 12667 12580 -87 -0.687% cmd/go/internal/cache.s 30754 30571 -183 -0.595% cmd/doc.s 62976 62755 -221 -0.351% cmd/go/internal/search.s 20114 19993 -121 -0.602% cmd/vendor/golang.org/x/xerrors.s 17923 17855 -68 -0.379% cmd/go/internal/lockedfile.s 16451 16415 -36 -0.219% cmd/vendor/golang.org/x/mod/sumdb/note.s 18200 18150 -50 -0.275% cmd/vendor/golang.org/x/mod/module.s 17869 17851 -18 -0.101% cmd/asm/internal/arch.s 37533 37482 -51 -0.136% cmd/fix.s 87728 87492 -236 -0.269% cmd/vendor/golang.org/x/mod/sumdb/tlog.s 36394 36367 -27 -0.074% cmd/vendor/golang.org/x/mod/sumdb/dirhash.s 4990 4963 -27 -0.541% cmd/go/internal/imports.s 16499 16469 -30 -0.182% cmd/vendor/golang.org/x/mod/zip.s 18816 18745 -71 -0.377% cmd/go/internal/cmdflag.s 5126 5123 -3 -0.059% cmd/internal/test2json.s 9540 9452 -88 -0.922% cmd/go/internal/tool.s 3629 3623 -6 -0.165% cmd/go/internal/version.s 11232 11220 -12 -0.107% cmd/go/internal/mvs.s 25383 25179 -204 -0.804% cmd/nm.s 5815 5803 -12 -0.206% cmd/dist.s 210146 209140 -1006 -0.479% cmd/asm/internal/asm.s 68655 68549 -106 -0.154% cmd/vendor/golang.org/x/mod/modfile.s 72974 72510 -464 -0.636% cmd/go/internal/load.s 107548 106861 -687 -0.639% cmd/link/internal/sym.s 18708 18581 -127 -0.679% cmd/asm.s 3367 3343 -24 -0.713% cmd/gofmt.s 30795 30698 -97 -0.315% cmd/link/internal/objfile.s 21828 21630 -198 -0.907% cmd/pack.s 14878 14869 -9 -0.060% cmd/vendor/github.com/google/pprof/internal/elfexec.s 6788 6782 -6 -0.088% cmd/test2json.s 1647 1641 -6 -0.364% cmd/link/internal/loader.s 48677 48483 -194 -0.399% cmd/vendor/golang.org/x/tools/go/analysis/internal/analysisflags.s 16783 16773 -10 -0.060% cmd/link/internal/loadelf.s 35464 35126 -338 -0.953% cmd/link/internal/loadmacho.s 29438 29180 -258 -0.876% cmd/link/internal/loadpe.s 16440 16371 -69 -0.420% cmd/vendor/golang.org/x/tools/go/analysis/passes/internal/analysisutil.s 2106 2100 -6 -0.285% cmd/link/internal/loadxcoff.s 11711 11615 -96 -0.820% cmd/vendor/golang.org/x/tools/go/analysis/internal/facts.s 14954 14883 -71 -0.475% cmd/vendor/golang.org/x/tools/go/ast/inspector.s 5394 5374 -20 -0.371% cmd/vendor/golang.org/x/tools/go/analysis/passes/asmdecl.s 37029 36822 -207 -0.559% cmd/vendor/golang.org/x/tools/go/analysis/passes/inspect.s 340 337 -3 -0.882% cmd/vendor/golang.org/x/tools/go/analysis/passes/cgocall.s 9919 9858 -61 -0.615% cmd/vendor/golang.org/x/tools/go/analysis/passes/bools.s 6705 6690 -15 -0.224% cmd/vendor/golang.org/x/tools/go/analysis/passes/copylock.s 9783 9741 -42 -0.429% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% cmd/vendor/golang.org/x/tools/go/analysis/passes/ifaceassert.s 2768 2762 -6 -0.217% cmd/vendor/golang.org/x/tools/go/analysis/passes/loopclosure.s 3031 2998 -33 -1.089% cmd/vendor/golang.org/x/tools/go/analysis/passes/shift.s 4382 4376 -6 -0.137% cmd/vendor/golang.org/x/tools/go/analysis/passes/stdmethods.s 8654 8642 -12 -0.139% cmd/vendor/golang.org/x/tools/go/analysis/passes/stringintconv.s 3458 3446 -12 -0.347% cmd/vendor/golang.org/x/tools/go/analysis/passes/structtag.s 8011 7995 -16 -0.200% cmd/vendor/golang.org/x/tools/go/analysis/passes/tests.s 6205 6193 -12 -0.193% cmd/vendor/golang.org/x/tools/go/ast/astutil.s 66183 65861 -322 -0.487% cmd/vendor/github.com/google/pprof/profile.s 150844 150261 -583 -0.386% cmd/vendor/golang.org/x/tools/go/analysis/passes/unreachable.s 8057 8054 -3 -0.037% cmd/vendor/golang.org/x/tools/go/analysis/passes/unusedresult.s 3670 3667 -3 -0.082% cmd/vendor/github.com/google/pprof/internal/measurement.s 10464 10440 -24 -0.229% cmd/vendor/golang.org/x/tools/go/types/typeutil.s 12319 12274 -45 -0.365% cmd/vendor/golang.org/x/tools/go/analysis/unitchecker.s 13503 13342 -161 -1.192% cmd/vendor/golang.org/x/tools/go/analysis/passes/ctrlflow.s 5261 5218 -43 -0.817% cmd/vendor/golang.org/x/tools/go/analysis/passes/errorsas.s 1462 1459 -3 -0.205% cmd/vendor/golang.org/x/tools/go/analysis/passes/lostcancel.s 9594 9582 -12 -0.125% cmd/vendor/golang.org/x/tools/go/analysis/passes/printf.s 34397 34338 -59 -0.172% cmd/vendor/github.com/google/pprof/internal/graph.s 53225 52936 -289 -0.543% cmd/vendor/github.com/ianlancetaylor/demangle.s 177450 175329 -2121 -1.195% crypto/x509.s 147892 147388 -504 -0.341% cmd/go/internal/work.s 306465 304950 -1515 -0.494% cmd/go/internal/run.s 4664 4657 -7 -0.150% crypto/tls.s 313130 311833 -1297 -0.414% net/http/httptrace.s 3979 3905 -74 -1.860% net/smtp.s 14413 14344 -69 -0.479% cmd/link/internal/ld.s 545343 542279 -3064 -0.562% cmd/link/internal/mips.s 6218 6215 -3 -0.048% cmd/link/internal/mips64.s 6108 6103 -5 -0.082% cmd/link/internal/amd64.s 18154 18112 -42 -0.231% cmd/link/internal/arm64.s 22527 22494 -33 -0.146% cmd/link/internal/arm.s 22574 22494 -80 -0.354% cmd/link/internal/s390x.s 20779 20746 -33 -0.159% cmd/link/internal/wasm.s 16531 16493 -38 -0.230% cmd/link/internal/x86.s 18906 18849 -57 -0.301% cmd/link/internal/ppc64.s 26856 26778 -78 -0.290% net/http.s 559101 556513 -2588 -0.463% net/http/cookiejar.s 15912 15885 -27 -0.170% expvar.s 9531 9525 -6 -0.063% net/http/httptest.s 16616 16475 -141 -0.849% net/http/cgi.s 23624 23458 -166 -0.703% cmd/go/internal/web.s 16546 16489 -57 -0.344% cmd/vendor/golang.org/x/mod/sumdb.s 33197 33117 -80 -0.241% net/http/fcgi.s 19266 19169 -97 -0.503% net/http/httputil.s 39875 39728 -147 -0.369% cmd/vendor/github.com/google/pprof/internal/symbolz.s 5888 5867 -21 -0.357% net/rpc.s 34154 34003 -151 -0.442% cmd/vendor/github.com/google/pprof/internal/transport.s 2746 2716 -30 -1.092% cmd/vendor/github.com/google/pprof/internal/binutils.s 35999 35875 -124 -0.344% net/rpc/jsonrpc.s 6637 6598 -39 -0.588% cmd/vendor/github.com/google/pprof/internal/symbolizer.s 11533 11458 -75 -0.650% cmd/go/internal/get.s 62921 62803 -118 -0.188% cmd/vendor/github.com/google/pprof/internal/report.s 80364 80058 -306 -0.381% cmd/go/internal/modfetch/codehost.s 89680 89066 -614 -0.685% cmd/trace.s 117171 116701 -470 -0.401% cmd/vendor/github.com/google/pprof/internal/driver.s 144268 143297 -971 -0.673% cmd/go/internal/modfetch.s 126299 125860 -439 -0.348% cmd/vendor/github.com/google/pprof/driver.s 9042 9000 -42 -0.464% cmd/go/internal/modconv.s 17947 17889 -58 -0.323% cmd/pprof.s 12399 12326 -73 -0.589% cmd/go/internal/modload.s 151182 150389 -793 -0.525% cmd/go/internal/generate.s 11738 11636 -102 -0.869% cmd/go/internal/help.s 6571 6531 -40 -0.609% cmd/go/internal/clean.s 11174 11142 -32 -0.286% cmd/go/internal/vet.s 7897 7867 -30 -0.380% cmd/go/internal/envcmd.s 22176 22095 -81 -0.365% cmd/go/internal/list.s 15216 15067 -149 -0.979% cmd/go/internal/modget.s 38698 38519 -179 -0.463% cmd/go/internal/modcmd.s 46674 46441 -233 -0.499% cmd/go/internal/test.s 64664 64456 -208 -0.322% cmd/go.s 6730 6703 -27 -0.401% cmd/compile/internal/ssa.s 3592565 3582500 -10065 -0.280% cmd/compile/internal/gc.s 1549123 1537123 -12000 -0.775% cmd/compile/internal/riscv64.s 14579 14483 -96 -0.658% cmd/compile/internal/mips.s 20578 20419 -159 -0.773% cmd/compile/internal/ppc64.s 25524 25359 -165 -0.646% cmd/compile/internal/mips64.s 19795 19636 -159 -0.803% cmd/compile/internal/wasm.s 13329 13290 -39 -0.293% cmd/compile/internal/s390x.s 28097 27892 -205 -0.730% cmd/compile/internal/arm.s 31489 31321 -168 -0.534% cmd/compile/internal/arm64.s 29803 29590 -213 -0.715% cmd/compile/internal/amd64.s 32961 33221 +260 +0.789% cmd/compile/internal/x86.s 31029 30878 -151 -0.487% total 18534966 18440341 -94625 -0.511% Change-Id: I830d37364f14f0297800adc42c99f60a74c51aca Reviewed-on: https://go-review.googlesource.com/c/go/+/226367 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-24 22:14:02 -07:00
"cmd/internal/obj/x86"
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
"cmd/internal/objabi"
[dev.inline] cmd/compile: introduce cmd/internal/src.Pos type for line numbers This is a step toward chosing a different position representation. By introducing an explicit type, it will be easier to make the transition step-wise while ensuring everything keeps running. This has been reviewed via https://go-review.googlesource.com/#/c/34025/. Change-Id: Ibceddcd62d8f346321ac3250e3940e9c436ed684 Reviewed-on: https://go-review.googlesource.com/34132 Run-TryBot: Robert Griesemer <gri@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Lazar <lazard@golang.org>
2016-12-06 17:08:06 -08:00
"cmd/internal/src"
cmd: add new common architecture representation Information about CPU architectures (e.g., name, family, byte ordering, pointer and register size) is currently redundantly scattered around the source tree. Instead consolidate the basic information into a single new package cmd/internal/sys. Also, introduce new sys.I386, sys.AMD64, etc. names for the constants '8', '6', etc. and replace most uses of the latter. The notable exceptions are a couple of error messages that still refer to the old char-based toolchain names and function reltype in cmd/link. Passes toolstash/buildall. Change-Id: I8a6f0cbd49577ec1672a98addebc45f767e36461 Reviewed-on: https://go-review.googlesource.com/21623 Reviewed-by: Michael Hudson-Doyle <michael.hudson@canonical.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-04-06 12:01:40 -07:00
"cmd/internal/sys"
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
)
[dev.ssa] cmd/compile: preallocate small-numbered values and blocks Speeds up the compiler ~5%. Change-Id: Ia5cf0bcd58701fd14018ec77d01f03d5c7d6385b Reviewed-on: https://go-review.googlesource.com/19060 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-01-28 13:46:30 -08:00
var ssaConfig *ssa.Config
cmd/compile: add initial backend concurrency support This CL adds initial support for concurrent backend compilation. BACKGROUND The compiler currently consists (very roughly) of the following phases: 1. Initialization. 2. Lexing and parsing into the cmd/compile/internal/syntax AST. 3. Translation into the cmd/compile/internal/gc AST. 4. Some gc AST passes: typechecking, escape analysis, inlining, closure handling, expression evaluation ordering (order.go), and some lowering and optimization (walk.go). 5. Translation into the cmd/compile/internal/ssa SSA form. 6. Optimization and lowering of SSA form. 7. Translation from SSA form to assembler instructions. 8. Translation from assembler instructions to machine code. 9. Writing lots of output: machine code, DWARF symbols, type and reflection info, export data. Phase 2 was already concurrent as of Go 1.8. Phase 3 is planned for eventual removal; we hope to go straight from syntax AST to SSA. Phases 5–8 are per-function; this CL adds support for processing multiple functions concurrently. The slowest phases in the compiler are 5 and 6, so this offers the opportunity for some good speed-ups. Unfortunately, it's not quite that straightforward. In the current compiler, the latter parts of phase 4 (order, walk) are done function-at-a-time as needed. Making order and walk concurrency-safe proved hard, and they're not particularly slow, so there wasn't much reward. To enable phases 5–8 to be done concurrently, when concurrent backend compilation is requested, we complete phase 4 for all functions before starting later phases for any functions. Also, in reality, we automatically generate new functions in phase 9, such as method wrappers and equality and has routines. Those new functions then go through phases 4–8. This CL disables concurrent backend compilation after the first, big, user-provided batch of functions has been compiled. This is done to keep things simple, and because the autogenerated functions tend to be small, few, simple, and fast to compile. USAGE Concurrent backend compilation still defaults to off. To set the number of functions that may be backend-compiled concurrently, use the compiler flag -c. In future work, cmd/go will automatically set -c. Furthermore, this CL has been intentionally written so that the c=1 path has no backend concurrency whatsoever, not even spawning any goroutines. This helps ensure that, should problems arise late in the development cycle, we can simply have cmd/go set c=1 always, and revert to the original compiler behavior. MUTEXES Most of the work required to make concurrent backend compilation safe has occurred over the past month. This CL adds a handful of mutexes to get the rest of the way there; they are the mutexes that I didn't see a clean way to avoid. Some of them may still be eliminable in future work. In no particular order: * gc.funcsymsmu. The global funcsyms slice is populated lazily when we need function symbols for closures. This occurs during gc AST to SSA translation. The function funcsym also does a package lookup, which is a source of races on types.Pkg.Syms; funcsymsmu also covers that package lookup. This mutex is low priority: it adds a single global, it is in an infrequently used code path, and it is low contention. Since funcsyms may now be added in any order, we must sort them to preserve reproducible builds. * gc.largeStackFramesMu. We don't discover until after SSA compilation that a function's stack frame is gigantic. Recording that error happens basically never, but it does happen concurrently. Fix with a low priority mutex and sorting. * obj.Link.hashmu. ctxt.hash stores the mapping from types.Syms (compiler symbols) to obj.LSyms (linker symbols). It is accessed fairly heavily through all the phases. This is the only heavily contended mutex. * gc.signatlistmu. The global signatlist map is populated with types through several of the concurrent phases, including notably via ngotype during DWARF generation. It is low priority for removal. * gc.typepkgmu. Looking up symbols in the types package happens a fair amount during backend compilation and DWARF generation, particularly via ngotype. This mutex helps us to avoid a broader mutex on types.Pkg.Syms. It has low-to-moderate contention. * types.internedStringsmu. gc AST to SSA conversion and some SSA work introduce new autotmps. Those autotmps have their names interned to reduce allocations. That interning requires protecting types.internedStrings. The autotmp names are heavily re-used, and the mutex overhead and contention here are low, so it is probably a worthwhile performance optimization to keep this mutex. TESTING I have been testing this code locally by running 'go install -race cmd/compile' and then doing 'go build -a -gcflags=-c=128 std cmd' for all architectures and a variety of compiler flags. This obviously needs to be made part of the builders, but it is too expensive to make part of all.bash. I have filed #19962 for this. REPRODUCIBLE BUILDS This version of the compiler generates reproducible builds. Testing reproducible builds also needs automation, however, and is also too expensive for all.bash. This is #19961. Also of note is that some of the compiler flags used by 'toolstash -cmp' are currently incompatible with concurrent backend compilation. They still work fine with c=1. Time will tell whether this is a problem. NEXT STEPS * Continue to find and fix races and bugs, using a combination of code inspection, fuzzing, and hopefully some community experimentation. I do not know of any outstanding races, but there probably are some. * Improve testing. * Improve performance, for many values of c. * Integrate with cmd/go and fine tune. * Support concurrent compilation with the -race flag. It is a sad irony that it does not yet work. * Minor code cleanup that has been deferred during the last month due to uncertainty about the ultimate shape of this CL. PERFORMANCE Here's the buried lede, at last. :) All benchmarks are from my 8 core 2.9 GHz Intel Core i7 darwin/amd64 laptop. First, going from tip to this CL with c=1 has almost no impact. name old time/op new time/op delta Template 195ms ± 3% 194ms ± 5% ~ (p=0.370 n=30+29) Unicode 86.6ms ± 3% 87.0ms ± 7% ~ (p=0.958 n=29+30) GoTypes 548ms ± 3% 555ms ± 4% +1.35% (p=0.001 n=30+28) Compiler 2.51s ± 2% 2.54s ± 2% +1.17% (p=0.000 n=28+30) SSA 5.16s ± 3% 5.16s ± 2% ~ (p=0.910 n=30+29) Flate 124ms ± 5% 124ms ± 4% ~ (p=0.947 n=30+30) GoParser 146ms ± 3% 146ms ± 3% ~ (p=0.150 n=29+28) Reflect 354ms ± 3% 352ms ± 4% ~ (p=0.096 n=29+29) Tar 107ms ± 5% 106ms ± 3% ~ (p=0.370 n=30+29) XML 200ms ± 4% 201ms ± 4% ~ (p=0.313 n=29+28) [Geo mean] 332ms 333ms +0.10% name old user-time/op new user-time/op delta Template 227ms ± 5% 225ms ± 5% ~ (p=0.457 n=28+27) Unicode 109ms ± 4% 109ms ± 5% ~ (p=0.758 n=29+29) GoTypes 713ms ± 4% 721ms ± 5% ~ (p=0.051 n=30+29) Compiler 3.36s ± 2% 3.38s ± 3% ~ (p=0.146 n=30+30) SSA 7.46s ± 3% 7.47s ± 3% ~ (p=0.804 n=30+29) Flate 146ms ± 7% 147ms ± 3% ~ (p=0.833 n=29+27) GoParser 179ms ± 5% 179ms ± 5% ~ (p=0.866 n=30+30) Reflect 431ms ± 4% 429ms ± 4% ~ (p=0.593 n=29+30) Tar 124ms ± 5% 123ms ± 5% ~ (p=0.140 n=29+29) XML 243ms ± 4% 242ms ± 7% ~ (p=0.404 n=29+29) [Geo mean] 415ms 415ms +0.02% name old obj-bytes new obj-bytes delta Template 382k ± 0% 382k ± 0% ~ (all equal) Unicode 203k ± 0% 203k ± 0% ~ (all equal) GoTypes 1.18M ± 0% 1.18M ± 0% ~ (all equal) Compiler 3.98M ± 0% 3.98M ± 0% ~ (all equal) SSA 8.28M ± 0% 8.28M ± 0% ~ (all equal) Flate 230k ± 0% 230k ± 0% ~ (all equal) GoParser 287k ± 0% 287k ± 0% ~ (all equal) Reflect 1.00M ± 0% 1.00M ± 0% ~ (all equal) Tar 190k ± 0% 190k ± 0% ~ (all equal) XML 416k ± 0% 416k ± 0% ~ (all equal) [Geo mean] 660k 660k +0.00% Comparing this CL to itself, from c=1 to c=2 improves real times 20-30%, costs 5-10% more CPU time, and adds about 2% alloc. The allocation increase comes from allocating more ssa.Caches. name old time/op new time/op delta Template 202ms ± 3% 149ms ± 3% -26.15% (p=0.000 n=49+49) Unicode 87.4ms ± 4% 84.2ms ± 3% -3.68% (p=0.000 n=48+48) GoTypes 560ms ± 2% 398ms ± 2% -28.96% (p=0.000 n=49+49) Compiler 2.46s ± 3% 1.76s ± 2% -28.61% (p=0.000 n=48+46) SSA 6.17s ± 2% 4.04s ± 1% -34.52% (p=0.000 n=49+49) Flate 126ms ± 3% 92ms ± 2% -26.81% (p=0.000 n=49+48) GoParser 148ms ± 4% 107ms ± 2% -27.78% (p=0.000 n=49+48) Reflect 361ms ± 3% 281ms ± 3% -22.10% (p=0.000 n=49+49) Tar 109ms ± 4% 86ms ± 3% -20.81% (p=0.000 n=49+47) XML 204ms ± 3% 144ms ± 2% -29.53% (p=0.000 n=48+45) name old user-time/op new user-time/op delta Template 246ms ± 9% 246ms ± 4% ~ (p=0.401 n=50+48) Unicode 109ms ± 4% 111ms ± 4% +1.47% (p=0.000 n=44+50) GoTypes 728ms ± 3% 765ms ± 3% +5.04% (p=0.000 n=46+50) Compiler 3.33s ± 3% 3.41s ± 2% +2.31% (p=0.000 n=49+48) SSA 8.52s ± 2% 9.11s ± 2% +6.93% (p=0.000 n=49+47) Flate 149ms ± 4% 161ms ± 3% +8.13% (p=0.000 n=50+47) GoParser 181ms ± 5% 192ms ± 2% +6.40% (p=0.000 n=49+46) Reflect 452ms ± 9% 474ms ± 2% +4.99% (p=0.000 n=50+48) Tar 126ms ± 6% 136ms ± 4% +7.95% (p=0.000 n=50+49) XML 247ms ± 5% 264ms ± 3% +6.94% (p=0.000 n=48+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 39.3MB ± 0% +1.48% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.2MB ± 0% +1.19% (p=0.008 n=5+5) GoTypes 113MB ± 0% 114MB ± 0% +0.69% (p=0.008 n=5+5) Compiler 443MB ± 0% 447MB ± 0% +0.95% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.26GB ± 0% +0.89% (p=0.008 n=5+5) Flate 25.3MB ± 0% 25.9MB ± 1% +2.35% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 32.2MB ± 0% +1.59% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 78.9MB ± 0% +0.91% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.0MB ± 0% +1.80% (p=0.008 n=5+5) XML 42.4MB ± 0% 43.4MB ± 0% +2.35% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 379k ± 0% 378k ± 0% ~ (p=0.421 n=5+5) Unicode 322k ± 0% 321k ± 0% ~ (p=0.222 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.548 n=5+5) Compiler 4.12M ± 0% 4.11M ± 0% -0.14% (p=0.032 n=5+5) SSA 9.72M ± 0% 9.72M ± 0% ~ (p=0.421 n=5+5) Flate 234k ± 1% 234k ± 0% ~ (p=0.421 n=5+5) GoParser 316k ± 1% 315k ± 0% ~ (p=0.222 n=5+5) Reflect 980k ± 0% 979k ± 0% ~ (p=0.095 n=5+5) Tar 249k ± 1% 249k ± 1% ~ (p=0.841 n=5+5) XML 392k ± 0% 391k ± 0% ~ (p=0.095 n=5+5) From c=1 to c=4, real time is down ~40%, CPU usage up 10-20%, alloc up ~5%: name old time/op new time/op delta Template 203ms ± 3% 131ms ± 5% -35.45% (p=0.000 n=50+50) Unicode 87.2ms ± 4% 84.1ms ± 2% -3.61% (p=0.000 n=48+47) GoTypes 560ms ± 4% 310ms ± 2% -44.65% (p=0.000 n=50+49) Compiler 2.47s ± 3% 1.41s ± 2% -43.10% (p=0.000 n=50+46) SSA 6.17s ± 2% 3.20s ± 2% -48.06% (p=0.000 n=49+49) Flate 126ms ± 4% 74ms ± 2% -41.06% (p=0.000 n=49+48) GoParser 148ms ± 4% 89ms ± 3% -39.97% (p=0.000 n=49+50) Reflect 360ms ± 3% 242ms ± 3% -32.81% (p=0.000 n=49+49) Tar 108ms ± 4% 73ms ± 4% -32.48% (p=0.000 n=50+49) XML 203ms ± 3% 119ms ± 3% -41.56% (p=0.000 n=49+48) name old user-time/op new user-time/op delta Template 246ms ± 9% 287ms ± 9% +16.98% (p=0.000 n=50+50) Unicode 109ms ± 4% 118ms ± 5% +7.56% (p=0.000 n=46+50) GoTypes 735ms ± 4% 806ms ± 2% +9.62% (p=0.000 n=50+50) Compiler 3.34s ± 4% 3.56s ± 2% +6.78% (p=0.000 n=49+49) SSA 8.54s ± 3% 10.04s ± 3% +17.55% (p=0.000 n=50+50) Flate 149ms ± 6% 176ms ± 3% +17.82% (p=0.000 n=50+48) GoParser 181ms ± 5% 213ms ± 3% +17.47% (p=0.000 n=50+50) Reflect 453ms ± 6% 499ms ± 2% +10.11% (p=0.000 n=50+48) Tar 126ms ± 5% 149ms ±11% +18.76% (p=0.000 n=50+50) XML 246ms ± 5% 287ms ± 4% +16.53% (p=0.000 n=49+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 40.4MB ± 0% +4.21% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.9MB ± 0% +3.68% (p=0.008 n=5+5) GoTypes 113MB ± 0% 116MB ± 0% +2.71% (p=0.008 n=5+5) Compiler 443MB ± 0% 455MB ± 0% +2.75% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.27GB ± 0% +1.84% (p=0.008 n=5+5) Flate 25.3MB ± 0% 26.9MB ± 1% +6.31% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 33.2MB ± 0% +4.61% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 80.2MB ± 0% +2.53% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.9MB ± 0% +5.19% (p=0.008 n=5+5) XML 42.4MB ± 0% 44.6MB ± 0% +5.20% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 380k ± 0% 379k ± 0% -0.39% (p=0.032 n=5+5) Unicode 321k ± 0% 321k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.421 n=5+5) Compiler 4.12M ± 0% 4.14M ± 0% +0.52% (p=0.008 n=5+5) SSA 9.72M ± 0% 9.76M ± 0% +0.37% (p=0.008 n=5+5) Flate 234k ± 1% 234k ± 1% ~ (p=0.690 n=5+5) GoParser 316k ± 0% 317k ± 1% ~ (p=0.841 n=5+5) Reflect 981k ± 0% 981k ± 0% ~ (p=1.000 n=5+5) Tar 250k ± 0% 249k ± 1% ~ (p=0.151 n=5+5) XML 393k ± 0% 392k ± 0% ~ (p=0.056 n=5+5) Going beyond c=4 on my machine tends to increase CPU time and allocs without impacting real time. The CPU time numbers matter, because when there are many concurrent compilation processes, that will impact the overall throughput. The numbers above are in many ways the best case scenario; we can take full advantage of all cores. Fortunately, the most common compilation scenario is incremental re-compilation of a single package during a build/test cycle. Updates #15756 Change-Id: I6725558ca2069edec0ac5b0d1683105a9fff6bea Reviewed-on: https://go-review.googlesource.com/40693 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Robert Griesemer <gri@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-19 08:27:26 -07:00
var ssaCaches []ssa.Cache
[dev.ssa] cmd/compile: preallocate small-numbered values and blocks Speeds up the compiler ~5%. Change-Id: Ia5cf0bcd58701fd14018ec77d01f03d5c7d6385b Reviewed-on: https://go-review.googlesource.com/19060 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-01-28 13:46:30 -08:00
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
var ssaDump string // early copy of $GOSSAFUNC; the func name to dump output for
cmd/compile: allow directory specification for GOSSAFUNC output This was useful for debugging failures occurring during make.bash. The added flush also ensures that any hints in the GOSSAFUNC output are flushed before fatal exit. The environment variable GOSSADIR specifies where the SSA html debugging files should be placed. To avoid collisions, each one is written into the [package].[functionOrMethod].html, where [package] is the filepath separator separated package name, function is the function name, and method is either (*Type).Method, or Type.Method, as appropriate. Directories are created as necessary to make this work. Change-Id: I420927426b618b633bb1ffc51cf0f223b8f6d49c Reviewed-on: https://go-review.googlesource.com/c/go/+/252338 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-31 14:29:58 -04:00
var ssaDir string // optional destination for ssa dump file
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
var ssaDumpStdout bool // whether to dump to stdout
cmd/compile: add control flow graphs to ssa.html This CL adds CFGs to ssa.html. It execs dot to generate SVG, which then gets inlined into the html. Some standard naming and javascript hacks enable integration with the rest of ssa.html. Clicking on blocks highlights the relevant part of the CFG, and vice versa. Sample output and screenshots can be seen in #28177. CFGs can be turned on with the suffix mask: :* - dump CFG for every phase :lower - just the lower phase :lower-layout - lower through layout :w,x-y - phases w and x through y Calling dot after every pass is noticeably slow, instead use the range of phases. Dead blocks are not displayed on CFG. User can zoom and pan individual CFG when the automatic adjustment has failed. Dot-related errors are reported without bringing down the process. Fixes #28177 Change-Id: Id52c42d86c4559ca737288aa10561b67a119c63d Reviewed-on: https://go-review.googlesource.com/c/142517 Run-TryBot: Yury Smolsky <yury@smolsky.by> Reviewed-by: David Chase <drchase@google.com>
2018-10-16 13:03:35 +03:00
var ssaDumpCFG string // generate CFGs for these phases
cmd/compile: cache the value of environment variable GOSSAFUNC Store the value of GOSSAFUNC in a global variable to avoid multiple calls to os.Getenv from gc.buildssa and gc.mkinlcall1. The latter is implemented in the CL 126606. Updates #25942 Change-Id: I58caaef2fee23694d80dc5a561a2e809bf077fa4 Reviewed-on: https://go-review.googlesource.com/126604 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-07-24 13:04:35 +03:00
const ssaDumpFile = "ssa.html"
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// The max number of defers in a function using open-coded defers. We enforce this
// limit because the deferBits bitmask is currently a single byte (to minimize code size)
const maxOpenDefers = 8
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
// ssaDumpInlined holds all inlined functions when ssaDump contains a function name.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
var ssaDumpInlined []ir.Node
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
cmd/compile: rearrange fields between ssa.Func, ssa.Cache, and ssa.Config This makes ssa.Func, ssa.Cache, and ssa.Config fulfill the roles laid out for them in CL 38160. The only non-trivial change in this CL is how cached values and blocks get IDs. Prior to this CL, their IDs were assigned as part of resetting the cache, and only modified IDs were reset. This required knowing how many values and blocks were modified, which required a tight coupling between ssa.Func and ssa.Config. To eliminate that coupling, we now zero values and blocks during reset, and assign their IDs when they are used. Since unused values and blocks have ID == 0, we can efficiently find the last used value/block, to avoid zeroing everything. Bulk zeroing is efficient, but not efficient enough to obviate the need to avoid zeroing everything every time. As a happy side-effect, ssa.Func.Free is no longer necessary. DebugHashMatch and friends now belong in func.go. They have been left in place for clarity and review. I will move them in a subsequent CL. Passes toolstash -cmp. No compiler performance impact. No change in 'go test cmd/compile/internal/ssa' execution time. Change-Id: I2eb7af58da067ef6a36e815a6f386cfe8634d098 Reviewed-on: https://go-review.googlesource.com/38167 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-15 11:15:13 -07:00
func initssaconfig() {
cmd/compile: move the SSA local type definitions to a single location Fixes #20304 Change-Id: I52ee02d1602ed7fffc96b27fd60990203c771aaf Reviewed-on: https://go-review.googlesource.com/94256 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-02-14 14:54:59 +11:00
types_ := ssa.NewTypes()
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
if thearch.SoftFloat {
softfloatInit()
}
cmd/compile: disable typPtr caching in the backend The only new Types that the backend introduces are pointers to Types generated by the frontend. Usually, when we generate a *T, we cache the resulting Type in T, to avoid recreating it later. However, that caching is not concurrency safe. Rather than add mutexes, this CL disables that caching before starting the backend. The backend generates few enough new *Ts that the performance impact of this is small, particularly if we pre-create some commonly used *Ts. Updates #15756 name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.4MB ± 0% +0.18% (p=0.001 n=10+10) Unicode 29.8MB ± 0% 29.8MB ± 0% +0.11% (p=0.043 n=10+9) GoTypes 114MB ± 0% 115MB ± 0% +0.33% (p=0.000 n=9+10) SSA 855MB ± 0% 859MB ± 0% +0.40% (p=0.000 n=10+10) Flate 25.7MB ± 0% 25.8MB ± 0% +0.35% (p=0.000 n=10+10) GoParser 31.9MB ± 0% 32.1MB ± 0% +0.58% (p=0.000 n=10+10) Reflect 79.6MB ± 0% 79.9MB ± 0% +0.31% (p=0.000 n=10+10) Tar 26.9MB ± 0% 26.9MB ± 0% +0.21% (p=0.000 n=10+10) XML 42.5MB ± 0% 42.7MB ± 0% +0.52% (p=0.000 n=10+9) name old allocs/op new allocs/op delta Template 394k ± 1% 393k ± 0% ~ (p=0.529 n=10+10) Unicode 319k ± 1% 319k ± 0% ~ (p=0.720 n=10+9) GoTypes 1.15M ± 0% 1.15M ± 0% +0.14% (p=0.035 n=10+10) SSA 7.53M ± 0% 7.56M ± 0% +0.45% (p=0.000 n=9+10) Flate 238k ± 0% 238k ± 1% ~ (p=0.579 n=10+10) GoParser 318k ± 1% 320k ± 1% +0.64% (p=0.001 n=10+10) Reflect 1.00M ± 0% 1.00M ± 0% ~ (p=0.393 n=10+10) Tar 254k ± 0% 254k ± 1% ~ (p=0.075 n=10+10) XML 395k ± 0% 397k ± 0% +0.44% (p=0.001 n=10+9) Change-Id: I6c031ed4f39108f26969c5712b73aa2fc08cd10a Reviewed-on: https://go-review.googlesource.com/38417 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 08:11:49 -07:00
// Generate a few pointer types that are uncommon in the frontend but common in the backend.
// Caching is disabled in the backend, so generating these here avoids allocations.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
_ = types.NewPtr(types.Types[types.TINTER]) // *interface{}
_ = types.NewPtr(types.NewPtr(types.Types[types.TSTRING])) // **string
_ = types.NewPtr(types.NewSlice(types.Types[types.TINTER])) // *[]interface{}
_ = types.NewPtr(types.NewPtr(types.Bytetype)) // **byte
_ = types.NewPtr(types.NewSlice(types.Bytetype)) // *[]byte
_ = types.NewPtr(types.NewSlice(types.Types[types.TSTRING])) // *[]string
_ = types.NewPtr(types.NewPtr(types.NewPtr(types.Types[types.TUINT8]))) // ***uint8
_ = types.NewPtr(types.Types[types.TINT16]) // *int16
_ = types.NewPtr(types.Types[types.TINT64]) // *int64
_ = types.NewPtr(types.Errortype) // *error
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
types.NewPtrCacheEnabled = false
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
ssaConfig = ssa.NewConfig(thearch.LinkArch.Name, *types_, base.Ctxt, base.Flag.N == 0)
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
ssaConfig.SoftFloat = thearch.SoftFloat
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
ssaConfig.Race = base.Flag.Race
ssaCaches = make([]ssa.Cache, base.Flag.LowerC)
cmd/compile: initialize SSA runtime functions in initssaconfig This is a better home for it. Change-Id: I7ce96c16378d841613edaa53c07347b0ac99ea6e Reviewed-on: https://go-review.googlesource.com/38970 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-03-30 11:13:01 -07:00
// Set up some runtime functions we'll need to call.
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
assertE2I = sysfunc("assertE2I")
assertE2I2 = sysfunc("assertE2I2")
assertI2I = sysfunc("assertI2I")
assertI2I2 = sysfunc("assertI2I2")
cmd/compile/internal/gc: unexport Deferproc and Newproc They are no longer used outside the package since CL 38080. Passes toolstash-check -all Change-Id: I30977ed2b233b7c8c53632cc420938bc3b0e37c6 Reviewed-on: https://go-review.googlesource.com/129781 Run-TryBot: Tobias Klauser <tobias.klauser@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-08-20 10:55:26 +02:00
deferproc = sysfunc("deferproc")
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
deferprocStack = sysfunc("deferprocStack")
cmd/compile: unexport gc.Sysfunc Updates #21352 Change-Id: If21342f30be32e25840b4072b932a6d4257b420d Reviewed-on: https://go-review.googlesource.com/54091 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Avelino <t@avelino.xxx> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-08-08 16:40:07 -07:00
Deferreturn = sysfunc("deferreturn")
reflect,runtime: use internal ABI for selected ASM routines, attempt 2 [This is a roll-forward of CL 262319, with a fix for some Darwin test failures]. Change the definitions of selected runtime assembly routines from ABI0 (the default) to ABIInternal. The ABIInternal def is intended to indicate that these functions don't follow the existing Go runtime ABI. In addition, convert the assembly reference to runtime.main (from runtime.mainPC) to ABIInternal. Finally, for functions such as "runtime.duffzero" that are called directly from generated code, make sure that the compiler looks up the correct ABI version. This is intended to support the register abi work, however these changes should not have any issues even when GOEXPERIMENT=regabi is not in effect. Updates #27539, #40724. Change-Id: Idf507f1c06176073563845239e1a54dad51a9ea9 Reviewed-on: https://go-review.googlesource.com/c/go/+/266638 Trust: Than McIntosh <thanm@google.com> Run-TryBot: Than McIntosh <thanm@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-14 08:36:11 -04:00
Duffcopy = sysfunc("duffcopy")
Duffzero = sysfunc("duffzero")
gcWriteBarrier = sysfunc("gcWriteBarrier")
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
goschedguarded = sysfunc("goschedguarded")
cmd/compile: unexport gc.Sysfunc Updates #21352 Change-Id: If21342f30be32e25840b4072b932a6d4257b420d Reviewed-on: https://go-review.googlesource.com/54091 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Avelino <t@avelino.xxx> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-08-08 16:40:07 -07:00
growslice = sysfunc("growslice")
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
msanread = sysfunc("msanread")
msanwrite = sysfunc("msanwrite")
cmd/compile: port callnew to ssa conversion This is part of a general effort to shrink walk. In an ideal world, we'd have an SSA op for allocation, but we don't yet have a good mechanism for introducing function calling during SSA compilation. In the meantime, SSA conversion is a better place for it. This also makes it easier to introduce new optimizations; instead of doing the typecheck walk dance, we can simply write what we want the backend to do. I introduced a new opcode in this change because: (a) It avoids a class of bugs involving correctly detecting whether this ONEW is a "before walk" ONEW or an "after walk" ONEW. It also means that using ONEW or ONEWOBJ in the wrong context will generally result in a faster failure. (b) Opcodes are cheap. (c) It provides a better place to put documentation. This change also is also marginally more performant: name old alloc/op new alloc/op delta Template 39.1MB ± 0% 39.0MB ± 0% -0.14% (p=0.008 n=5+5) Unicode 28.4MB ± 0% 28.4MB ± 0% ~ (p=0.421 n=5+5) GoTypes 132MB ± 0% 132MB ± 0% -0.23% (p=0.008 n=5+5) Compiler 608MB ± 0% 607MB ± 0% -0.25% (p=0.008 n=5+5) SSA 2.04GB ± 0% 2.04GB ± 0% -0.01% (p=0.008 n=5+5) Flate 24.4MB ± 0% 24.3MB ± 0% -0.13% (p=0.008 n=5+5) GoParser 29.3MB ± 0% 29.1MB ± 0% -0.54% (p=0.008 n=5+5) Reflect 84.8MB ± 0% 84.7MB ± 0% -0.21% (p=0.008 n=5+5) Tar 36.7MB ± 0% 36.6MB ± 0% -0.10% (p=0.008 n=5+5) XML 48.7MB ± 0% 48.6MB ± 0% -0.24% (p=0.008 n=5+5) [Geo mean] 85.0MB 84.8MB -0.19% name old allocs/op new allocs/op delta Template 383k ± 0% 382k ± 0% -0.26% (p=0.008 n=5+5) Unicode 341k ± 0% 341k ± 0% ~ (p=0.579 n=5+5) GoTypes 1.37M ± 0% 1.36M ± 0% -0.39% (p=0.008 n=5+5) Compiler 5.59M ± 0% 5.56M ± 0% -0.49% (p=0.008 n=5+5) SSA 16.9M ± 0% 16.9M ± 0% -0.03% (p=0.008 n=5+5) Flate 238k ± 0% 238k ± 0% -0.23% (p=0.008 n=5+5) GoParser 306k ± 0% 303k ± 0% -0.93% (p=0.008 n=5+5) Reflect 990k ± 0% 987k ± 0% -0.33% (p=0.008 n=5+5) Tar 356k ± 0% 355k ± 0% -0.20% (p=0.008 n=5+5) XML 444k ± 0% 442k ± 0% -0.45% (p=0.008 n=5+5) [Geo mean] 848k 845k -0.33% Change-Id: I2c36003a7cbf71b53857b7de734852b698f49310 Reviewed-on: https://go-review.googlesource.com/c/go/+/167957 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-03-17 07:14:12 -07:00
newobject = sysfunc("newobject")
cmd/compile/internal/gc: unexport Deferproc and Newproc They are no longer used outside the package since CL 38080. Passes toolstash-check -all Change-Id: I30977ed2b233b7c8c53632cc420938bc3b0e37c6 Reviewed-on: https://go-review.googlesource.com/129781 Run-TryBot: Tobias Klauser <tobias.klauser@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-08-20 10:55:26 +02:00
newproc = sysfunc("newproc")
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
panicdivide = sysfunc("panicdivide")
cmd/compile: unexport gc.Sysfunc Updates #21352 Change-Id: If21342f30be32e25840b4072b932a6d4257b420d Reviewed-on: https://go-review.googlesource.com/54091 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Avelino <t@avelino.xxx> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-08-08 16:40:07 -07:00
panicdottypeE = sysfunc("panicdottypeE")
panicdottypeI = sysfunc("panicdottypeI")
panicnildottype = sysfunc("panicnildottype")
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
panicoverflow = sysfunc("panicoverflow")
cmd/compile: implement shifts by signed amounts Allow shifts by signed amounts. Panic if the shift amount is negative. TODO: We end up doing two compares per shift, see Ian's comment https://github.com/golang/go/issues/19113#issuecomment-443241799 that we could do it with a single comparison in the normal case. The prove pass mostly handles this code well. For instance, it removes the <0 check for cases like this: if s >= 0 { _ = x << s } _ = x << len(a) This case isn't handled well yet: _ = x << (y & 0xf) I'll do followon CLs for unhandled cases as needed. Update #19113 R=go1.13 Change-Id: I839a5933d94b54ab04deb9dd5149f32c51c90fa1 Reviewed-on: https://go-review.googlesource.com/c/158719 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-20 10:52:11 -08:00
panicshift = sysfunc("panicshift")
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
raceread = sysfunc("raceread")
racereadrange = sysfunc("racereadrange")
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
racewrite = sysfunc("racewrite")
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
racewriterange = sysfunc("racewriterange")
runtime: make processor capability variable naming platform specific The current support_XXX variables are specific for the amd64 and 386 platforms. Prefix processor capability variables by architecture to have a consistent naming scheme and avoid reuse of the existing variables for new platforms. This also aligns naming of runtime variables closer with internal/cpu processor capability variable names. Change-Id: I3eabb29a03874678851376185d3a62e73c1aff1d Reviewed-on: https://go-review.googlesource.com/c/91435 Run-TryBot: Martin Möhrmann <martisch@uos.de> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-11-06 17:00:04 +01:00
x86HasPOPCNT = sysvar("x86HasPOPCNT") // bool
x86HasSSE41 = sysvar("x86HasSSE41") // bool
cmd/compile: add fma intrinsic for amd64 To permit ssa-level optimization, this change introduces an amd64 intrinsic that generates the VFMADD231SD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.X86.HasFMA. A rewrite rule can then translate the generic ssa intrinsic ("Fma") to VFMADD231SD. The benchmark compares the software implementation (old) with the intrinsic (new). name old time/op new time/op delta Fma-4 27.2ns ± 1% 1.0ns ± 9% -96.48% (p=0.008 n=5+5) Updates #25819. Change-Id: I966655e5f96817a5d06dff5942418a3915b09584 Reviewed-on: https://go-review.googlesource.com/c/go/+/137156 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-09-25 03:10:33 -04:00
x86HasFMA = sysvar("x86HasFMA") // bool
cmd/compile: add fma intrinsic for arm This change introduces an arm intrinsic that generates the FMULAD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.ARM.HasVFPv4. A rewrite rule translates the generic intrinsic to FMULAD. Updates #25819. Change-Id: I8459e5dd1cdbdca35f88a78dbeb7d387f1e20efa Reviewed-on: https://go-review.googlesource.com/c/go/+/142117 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-15 03:14:57 -04:00
armHasVFPv4 = sysvar("armHasVFPv4") // bool
runtime: make processor capability variable naming platform specific The current support_XXX variables are specific for the amd64 and 386 platforms. Prefix processor capability variables by architecture to have a consistent naming scheme and avoid reuse of the existing variables for new platforms. This also aligns naming of runtime variables closer with internal/cpu processor capability variable names. Change-Id: I3eabb29a03874678851376185d3a62e73c1aff1d Reviewed-on: https://go-review.googlesource.com/c/91435 Run-TryBot: Martin Möhrmann <martisch@uos.de> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-11-06 17:00:04 +01:00
arm64HasATOMICS = sysvar("arm64HasATOMICS") // bool
cmd/compile: alphabetize sysfunc lists Change-Id: Ia95643752d743d208363e3434497ffcf0af7b2d7 Reviewed-on: https://go-review.googlesource.com/107816 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2018-04-18 08:52:40 -07:00
typedmemclr = sysfunc("typedmemclr")
typedmemmove = sysfunc("typedmemmove")
cmd/compile, cmd/link: separate stable and internal ABIs This implements compiler and linker support for separating the function calling ABI into two ABIs: a stable and an internal ABI. At the moment, the two ABIs are identical, but we'll be able to evolve the internal ABI without breaking existing assembly code that depends on the stable ABI for calling to and from Go. The Go compiler generates internal ABI symbols for all Go functions. It uses the symabis information produced by the assembler to create ABI wrappers whenever it encounters a body-less Go function that's defined in assembly or a Go function that's referenced from assembly. Since the two ABIs are currently identical, for the moment this is implemented using "ABI alias" symbols, which are just forwarding references to the native ABI symbol for a function. This way there's no actual code involved in the ABI wrapper, which is good because we're not deriving any benefit from it right now. Once the ABIs diverge, we can eliminate ABI aliases. The linker represents these different ABIs internally as different versions of the same symbol. This way, the linker keeps us honest, since every symbol definition and reference also specifies its version. The linker is responsible for resolving ABI aliases. Fixes #27539. Change-Id: I197c52ec9f8fc435db8f7a4259029b20f6d65e95 Reviewed-on: https://go-review.googlesource.com/c/147160 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-11-01 12:30:23 -04:00
Udiv = sysvar("udiv") // asm func with special ABI
writeBarrier = sysvar("writeBarrier") // struct { bool; ... }
cmd/compile: port callnew to ssa conversion This is part of a general effort to shrink walk. In an ideal world, we'd have an SSA op for allocation, but we don't yet have a good mechanism for introducing function calling during SSA compilation. In the meantime, SSA conversion is a better place for it. This also makes it easier to introduce new optimizations; instead of doing the typecheck walk dance, we can simply write what we want the backend to do. I introduced a new opcode in this change because: (a) It avoids a class of bugs involving correctly detecting whether this ONEW is a "before walk" ONEW or an "after walk" ONEW. It also means that using ONEW or ONEWOBJ in the wrong context will generally result in a faster failure. (b) Opcodes are cheap. (c) It provides a better place to put documentation. This change also is also marginally more performant: name old alloc/op new alloc/op delta Template 39.1MB ± 0% 39.0MB ± 0% -0.14% (p=0.008 n=5+5) Unicode 28.4MB ± 0% 28.4MB ± 0% ~ (p=0.421 n=5+5) GoTypes 132MB ± 0% 132MB ± 0% -0.23% (p=0.008 n=5+5) Compiler 608MB ± 0% 607MB ± 0% -0.25% (p=0.008 n=5+5) SSA 2.04GB ± 0% 2.04GB ± 0% -0.01% (p=0.008 n=5+5) Flate 24.4MB ± 0% 24.3MB ± 0% -0.13% (p=0.008 n=5+5) GoParser 29.3MB ± 0% 29.1MB ± 0% -0.54% (p=0.008 n=5+5) Reflect 84.8MB ± 0% 84.7MB ± 0% -0.21% (p=0.008 n=5+5) Tar 36.7MB ± 0% 36.6MB ± 0% -0.10% (p=0.008 n=5+5) XML 48.7MB ± 0% 48.6MB ± 0% -0.24% (p=0.008 n=5+5) [Geo mean] 85.0MB 84.8MB -0.19% name old allocs/op new allocs/op delta Template 383k ± 0% 382k ± 0% -0.26% (p=0.008 n=5+5) Unicode 341k ± 0% 341k ± 0% ~ (p=0.579 n=5+5) GoTypes 1.37M ± 0% 1.36M ± 0% -0.39% (p=0.008 n=5+5) Compiler 5.59M ± 0% 5.56M ± 0% -0.49% (p=0.008 n=5+5) SSA 16.9M ± 0% 16.9M ± 0% -0.03% (p=0.008 n=5+5) Flate 238k ± 0% 238k ± 0% -0.23% (p=0.008 n=5+5) GoParser 306k ± 0% 303k ± 0% -0.93% (p=0.008 n=5+5) Reflect 990k ± 0% 987k ± 0% -0.33% (p=0.008 n=5+5) Tar 356k ± 0% 355k ± 0% -0.20% (p=0.008 n=5+5) XML 444k ± 0% 442k ± 0% -0.45% (p=0.008 n=5+5) [Geo mean] 848k 845k -0.33% Change-Id: I2c36003a7cbf71b53857b7de734852b698f49310 Reviewed-on: https://go-review.googlesource.com/c/go/+/167957 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-03-17 07:14:12 -07:00
zerobaseSym = sysvar("zerobase")
cmd/compile, runtime: use more registers for amd64 write barrier calls The compiler-inserted write barrier calls use a special ABI for speed and to minimize the binary size impact. runtime.gcWriteBarrier takes its args in DI and AX. This change adds gcWriteBarrier wrapper functions, varying only in the register used for the second argument. (Allowing variation in the first argument doesn't offer improvements, which is convenient, as it avoids quadratic API growth.) This reduces the number of register copies. The goals are reduced binary size via reduced register pressure/copies. One downside to this change is that when the write barrier is on, we may bounce through several different write barrier wrappers, which is bad for the instruction cache. Package runtime write barrier benchmarks for this change: name old time/op new time/op delta WriteBarrier-8 16.6ns ± 6% 15.6ns ± 6% -5.73% (p=0.000 n=97+99) BulkWriteBarrier-8 4.37ns ± 7% 4.22ns ± 8% -3.45% (p=0.000 n=96+99) However, I don't particularly trust these numbers. I ran runtime.BenchmarkWriteBarrier multiple times as I rebased this change, and noticed that the results have high variance depending on the parent change, perhaps due to aligment. This change was stress tested with GOGC=1 GODEBUG=gccheckmark=1 go test std. This change reduces binary sizes: file before after Δ % addr2line 4308720 4296688 -12032 -0.279% api 5965592 5945368 -20224 -0.339% asm 5148088 5025464 -122624 -2.382% buildid 2848760 2844904 -3856 -0.135% cgo 4828968 4812840 -16128 -0.334% compile 19754720 19529744 -224976 -1.139% cover 5256840 5236600 -20240 -0.385% dist 3670312 3658264 -12048 -0.328% doc 4669608 4657576 -12032 -0.258% fix 3377976 3365944 -12032 -0.356% link 6614888 6586472 -28416 -0.430% nm 4258368 4254528 -3840 -0.090% objdump 4656336 4644304 -12032 -0.258% pack 2295176 2295432 +256 +0.011% pprof 14762356 14709364 -52992 -0.359% test2json 2824456 2820600 -3856 -0.137% trace 11684404 11643700 -40704 -0.348% vet 8284760 8252248 -32512 -0.392% total 115210328 114580040 -630288 -0.547% This change improves compiler performance: name old time/op new time/op delta Template 208ms ± 3% 207ms ± 3% -0.40% (p=0.030 n=43+44) Unicode 80.2ms ± 3% 81.3ms ± 3% +1.25% (p=0.000 n=41+44) GoTypes 699ms ± 3% 694ms ± 2% -0.71% (p=0.016 n=42+37) Compiler 3.26s ± 2% 3.23s ± 2% -0.86% (p=0.000 n=43+45) SSA 6.97s ± 1% 6.93s ± 1% -0.63% (p=0.000 n=43+45) Flate 134ms ± 3% 133ms ± 2% ~ (p=0.139 n=45+42) GoParser 165ms ± 2% 164ms ± 1% -0.79% (p=0.000 n=45+40) Reflect 434ms ± 4% 435ms ± 4% ~ (p=0.937 n=44+44) Tar 181ms ± 2% 181ms ± 2% ~ (p=0.702 n=43+45) XML 244ms ± 2% 244ms ± 2% ~ (p=0.237 n=45+44) [Geo mean] 403ms 402ms -0.29% name old user-time/op new user-time/op delta Template 271ms ± 2% 268ms ± 1% -1.40% (p=0.000 n=42+42) Unicode 117ms ± 3% 116ms ± 5% ~ (p=0.066 n=45+45) GoTypes 948ms ± 2% 936ms ± 2% -1.30% (p=0.000 n=41+40) Compiler 4.26s ± 1% 4.21s ± 2% -1.25% (p=0.000 n=37+45) SSA 9.52s ± 2% 9.41s ± 1% -1.18% (p=0.000 n=44+45) Flate 167ms ± 2% 165ms ± 2% -1.15% (p=0.000 n=44+41) GoParser 201ms ± 2% 198ms ± 1% -1.40% (p=0.000 n=43+43) Reflect 563ms ± 8% 560ms ± 7% ~ (p=0.206 n=45+44) Tar 224ms ± 2% 222ms ± 2% -0.81% (p=0.000 n=45+45) XML 308ms ± 2% 304ms ± 1% -1.17% (p=0.000 n=42+43) [Geo mean] 525ms 519ms -1.08% name old alloc/op new alloc/op delta Template 36.3MB ± 0% 36.3MB ± 0% ~ (p=0.421 n=5+5) Unicode 28.4MB ± 0% 28.3MB ± 0% ~ (p=0.056 n=5+5) GoTypes 121MB ± 0% 121MB ± 0% -0.14% (p=0.008 n=5+5) Compiler 567MB ± 0% 567MB ± 0% -0.06% (p=0.016 n=4+5) SSA 1.26GB ± 0% 1.26GB ± 0% -0.07% (p=0.008 n=5+5) Flate 22.9MB ± 0% 22.8MB ± 0% ~ (p=0.310 n=5+5) GoParser 28.0MB ± 0% 27.9MB ± 0% -0.09% (p=0.008 n=5+5) Reflect 78.4MB ± 0% 78.4MB ± 0% -0.03% (p=0.008 n=5+5) Tar 34.2MB ± 0% 34.2MB ± 0% -0.05% (p=0.008 n=5+5) XML 44.4MB ± 0% 44.4MB ± 0% -0.04% (p=0.016 n=5+5) [Geo mean] 76.4MB 76.3MB -0.05% name old allocs/op new allocs/op delta Template 356k ± 0% 356k ± 0% -0.13% (p=0.008 n=5+5) Unicode 326k ± 0% 326k ± 0% -0.07% (p=0.008 n=5+5) GoTypes 1.24M ± 0% 1.24M ± 0% -0.24% (p=0.008 n=5+5) Compiler 5.30M ± 0% 5.28M ± 0% -0.34% (p=0.008 n=5+5) SSA 11.9M ± 0% 11.9M ± 0% -0.16% (p=0.008 n=5+5) Flate 226k ± 0% 225k ± 0% -0.12% (p=0.008 n=5+5) GoParser 287k ± 0% 286k ± 0% -0.29% (p=0.008 n=5+5) Reflect 930k ± 0% 929k ± 0% -0.05% (p=0.008 n=5+5) Tar 332k ± 0% 331k ± 0% -0.12% (p=0.008 n=5+5) XML 411k ± 0% 411k ± 0% -0.12% (p=0.008 n=5+5) [Geo mean] 771k 770k -0.16% For some packages, this change significantly reduces the size of executable text. Examples: file before after Δ % cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% Full listing: file before after Δ % container/ring.s 1890 1870 -20 -1.058% container/list.s 5366 5390 +24 +0.447% internal/cpu.s 3298 3295 -3 -0.091% internal/testlog.s 1507 1501 -6 -0.398% image/color.s 8281 8248 -33 -0.399% runtime.s 480970 480075 -895 -0.186% sync.s 16497 16408 -89 -0.539% internal/singleflight.s 2591 2577 -14 -0.540% math/rand.s 10456 10438 -18 -0.172% cmd/go/internal/par.s 2801 2790 -11 -0.393% internal/reflectlite.s 28477 28417 -60 -0.211% errors.s 2750 2736 -14 -0.509% internal/oserror.s 446 434 -12 -2.691% sort.s 17061 17046 -15 -0.088% io.s 17063 16999 -64 -0.375% vendor/golang.org/x/crypto/hkdf.s 1962 1936 -26 -1.325% text/tabwriter.s 9617 9574 -43 -0.447% hash/crc64.s 3414 3408 -6 -0.176% hash/crc32.s 6657 6651 -6 -0.090% bytes.s 31932 31863 -69 -0.216% strconv.s 53158 52799 -359 -0.675% strings.s 42829 42665 -164 -0.383% encoding/ascii85.s 4833 4791 -42 -0.869% vendor/golang.org/x/text/transform.s 16810 16724 -86 -0.512% path.s 6848 6845 -3 -0.044% encoding/base32.s 9658 9592 -66 -0.683% bufio.s 23051 22908 -143 -0.620% compress/bzip2.s 11773 11764 -9 -0.076% image.s 37565 37502 -63 -0.168% syscall.s 82359 82279 -80 -0.097% regexp/syntax.s 83573 82930 -643 -0.769% image/jpeg.s 36535 36490 -45 -0.123% regexp.s 64396 64214 -182 -0.283% time.s 82724 82622 -102 -0.123% plugin.s 6539 6536 -3 -0.046% context.s 10959 10865 -94 -0.858% internal/poll.s 24286 24270 -16 -0.066% reflect.s 168304 167927 -377 -0.224% internal/fmtsort.s 7416 7376 -40 -0.539% os.s 52465 51787 -678 -1.292% cmd/go/internal/lockedfile/internal/filelock.s 2326 2317 -9 -0.387% os/signal.s 4657 4648 -9 -0.193% runtime/debug.s 6040 5998 -42 -0.695% encoding/binary.s 30838 30801 -37 -0.120% vendor/golang.org/x/net/route.s 23694 23491 -203 -0.857% path/filepath.s 17895 17889 -6 -0.034% cmd/vendor/golang.org/x/sys/unix.s 78125 78109 -16 -0.020% io/ioutil.s 6999 6996 -3 -0.043% encoding/base64.s 12094 12007 -87 -0.719% crypto/cipher.s 20466 20372 -94 -0.459% cmd/go/internal/robustio.s 2672 2669 -3 -0.112% encoding/pem.s 9302 9286 -16 -0.172% internal/obscuretestdata.s 1719 1695 -24 -1.396% crypto/aes.s 11014 11002 -12 -0.109% os/exec.s 29388 29231 -157 -0.534% cmd/internal/browser.s 2266 2260 -6 -0.265% internal/goroot.s 4601 4592 -9 -0.196% vendor/golang.org/x/crypto/chacha20poly1305.s 8945 8942 -3 -0.034% cmd/vendor/golang.org/x/crypto/ssh/terminal.s 27226 27195 -31 -0.114% index/suffixarray.s 36431 36411 -20 -0.055% fmt.s 77017 76709 -308 -0.400% encoding/hex.s 6241 6154 -87 -1.394% compress/lzw.s 7133 7069 -64 -0.897% database/sql/driver.s 18888 18877 -11 -0.058% net/url.s 29838 29739 -99 -0.332% debug/plan9obj.s 8329 8279 -50 -0.600% encoding/csv.s 12986 12902 -84 -0.647% debug/gosym.s 25403 25330 -73 -0.287% compress/flate.s 51192 50970 -222 -0.434% vendor/golang.org/x/net/dns/dnsmessage.s 86769 86208 -561 -0.647% compress/gzip.s 9791 9758 -33 -0.337% compress/zlib.s 7310 7277 -33 -0.451% archive/zip.s 42356 42166 -190 -0.449% debug/dwarf.s 108259 107730 -529 -0.489% encoding/json.s 106378 105910 -468 -0.440% os/user.s 14751 14724 -27 -0.183% database/sql.s 99011 98404 -607 -0.613% log.s 9466 9423 -43 -0.454% debug/pe.s 31272 31182 -90 -0.288% debug/macho.s 32764 32608 -156 -0.476% encoding/gob.s 136976 136517 -459 -0.335% vendor/golang.org/x/text/unicode/bidi.s 27318 27276 -42 -0.154% archive/tar.s 71416 70975 -441 -0.618% vendor/golang.org/x/net/http2/hpack.s 23892 23848 -44 -0.184% vendor/golang.org/x/text/secure/bidirule.s 3354 3351 -3 -0.089% mime/quotedprintable.s 5960 5925 -35 -0.587% net/http/internal.s 5874 5853 -21 -0.358% math/big.s 184147 183692 -455 -0.247% debug/elf.s 63775 63567 -208 -0.326% mime.s 39802 39709 -93 -0.234% encoding/xml.s 111038 110713 -325 -0.293% crypto/dsa.s 6044 6029 -15 -0.248% go/token.s 12139 12077 -62 -0.511% crypto/rand.s 6889 6866 -23 -0.334% go/scanner.s 19030 19008 -22 -0.116% flag.s 22320 22236 -84 -0.376% vendor/golang.org/x/text/unicode/norm.s 66652 66391 -261 -0.392% crypto/rsa.s 31671 31650 -21 -0.066% crypto/elliptic.s 51553 51403 -150 -0.291% internal/xcoff.s 22950 22822 -128 -0.558% go/constant.s 43750 43689 -61 -0.139% encoding/asn1.s 57086 57035 -51 -0.089% runtime/trace.s 2609 2603 -6 -0.230% crypto/x509/pkix.s 10458 10471 +13 +0.124% image/gif.s 27544 27385 -159 -0.577% vendor/golang.org/x/net/idna.s 24558 24502 -56 -0.228% image/png.s 42775 42685 -90 -0.210% vendor/golang.org/x/crypto/cryptobyte.s 33616 33493 -123 -0.366% go/ast.s 80684 80449 -235 -0.291% net/internal/socktest.s 16571 16535 -36 -0.217% crypto/ecdsa.s 11948 11936 -12 -0.100% text/template/parse.s 95138 94002 -1136 -1.194% runtime/pprof.s 59702 59639 -63 -0.106% testing.s 68427 68088 -339 -0.495% internal/testenv.s 5620 5596 -24 -0.427% testing/internal/testdeps.s 3312 3294 -18 -0.543% internal/trace.s 78473 78239 -234 -0.298% testing/iotest.s 4968 4908 -60 -1.208% os/signal/internal/pty.s 3011 2990 -21 -0.697% testing/quick.s 12179 12125 -54 -0.443% cmd/internal/bio.s 9286 9274 -12 -0.129% cmd/internal/src.s 17684 17663 -21 -0.119% cmd/internal/goobj2.s 12588 12558 -30 -0.238% cmd/internal/objabi.s 16408 16390 -18 -0.110% go/printer.s 77417 77308 -109 -0.141% go/parser.s 80045 79113 -932 -1.164% go/format.s 5434 5419 -15 -0.276% cmd/internal/goobj.s 26146 25954 -192 -0.734% runtime/pprof/internal/profile.s 102518 102178 -340 -0.332% text/template.s 95343 94935 -408 -0.428% cmd/internal/dwarf.s 31718 31572 -146 -0.460% cmd/vendor/golang.org/x/arch/arm/armasm.s 45240 45151 -89 -0.197% internal/lazytemplate.s 1470 1457 -13 -0.884% cmd/vendor/golang.org/x/arch/ppc64/ppc64asm.s 37253 37220 -33 -0.089% cmd/asm/internal/flags.s 2593 2590 -3 -0.116% cmd/asm/internal/lex.s 25068 24921 -147 -0.586% cmd/internal/buildid.s 18536 18263 -273 -1.473% cmd/vendor/golang.org/x/arch/x86/x86asm.s 80209 80105 -104 -0.130% go/doc.s 75140 74585 -555 -0.739% cmd/internal/edit.s 3893 3899 +6 +0.154% html/template.s 89377 88809 -568 -0.636% cmd/vendor/golang.org/x/arch/arm64/arm64asm.s 117998 117824 -174 -0.147% cmd/internal/obj.s 115015 114290 -725 -0.630% go/build.s 69379 68862 -517 -0.745% cmd/internal/objfile.s 48106 47982 -124 -0.258% cmd/cover.s 46239 46113 -126 -0.272% cmd/addr2line.s 2845 2833 -12 -0.422% cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/riscv.s 63834 63006 -828 -1.297% cmd/compile/internal/syntax.s 146582 145456 -1126 -0.768% cmd/internal/obj/wasm.s 44117 44066 -51 -0.116% cmd/cgo.s 242645 241653 -992 -0.409% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% net.s 295972 292010 -3962 -1.339% go/types.s 321371 319432 -1939 -0.603% vendor/golang.org/x/net/http/httpproxy.s 9450 9423 -27 -0.286% net/textproto.s 19455 19406 -49 -0.252% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% go/internal/srcimporter.s 6475 6409 -66 -1.019% log/syslog.s 8017 7929 -88 -1.098% cmd/compile/internal/logopt.s 10183 10162 -21 -0.206% net/mail.s 24085 23948 -137 -0.569% mime/multipart.s 21527 21420 -107 -0.497% cmd/internal/obj/s390x.s 127610 127757 +147 +0.115% go/internal/gcimporter.s 34913 34548 -365 -1.045% vendor/golang.org/x/net/nettest.s 28103 28016 -87 -0.310% cmd/go/internal/cfg.s 9967 9916 -51 -0.512% cmd/api.s 39703 39603 -100 -0.252% go/internal/gccgoimporter.s 56470 56120 -350 -0.620% go/importer.s 2077 2056 -21 -1.011% cmd/compile/internal/types.s 48202 47282 -920 -1.909% cmd/go/internal/str.s 4341 4320 -21 -0.484% cmd/internal/obj/x86.s 89440 88625 -815 -0.911% cmd/go/internal/base.s 12667 12580 -87 -0.687% cmd/go/internal/cache.s 30754 30571 -183 -0.595% cmd/doc.s 62976 62755 -221 -0.351% cmd/go/internal/search.s 20114 19993 -121 -0.602% cmd/vendor/golang.org/x/xerrors.s 17923 17855 -68 -0.379% cmd/go/internal/lockedfile.s 16451 16415 -36 -0.219% cmd/vendor/golang.org/x/mod/sumdb/note.s 18200 18150 -50 -0.275% cmd/vendor/golang.org/x/mod/module.s 17869 17851 -18 -0.101% cmd/asm/internal/arch.s 37533 37482 -51 -0.136% cmd/fix.s 87728 87492 -236 -0.269% cmd/vendor/golang.org/x/mod/sumdb/tlog.s 36394 36367 -27 -0.074% cmd/vendor/golang.org/x/mod/sumdb/dirhash.s 4990 4963 -27 -0.541% cmd/go/internal/imports.s 16499 16469 -30 -0.182% cmd/vendor/golang.org/x/mod/zip.s 18816 18745 -71 -0.377% cmd/go/internal/cmdflag.s 5126 5123 -3 -0.059% cmd/internal/test2json.s 9540 9452 -88 -0.922% cmd/go/internal/tool.s 3629 3623 -6 -0.165% cmd/go/internal/version.s 11232 11220 -12 -0.107% cmd/go/internal/mvs.s 25383 25179 -204 -0.804% cmd/nm.s 5815 5803 -12 -0.206% cmd/dist.s 210146 209140 -1006 -0.479% cmd/asm/internal/asm.s 68655 68549 -106 -0.154% cmd/vendor/golang.org/x/mod/modfile.s 72974 72510 -464 -0.636% cmd/go/internal/load.s 107548 106861 -687 -0.639% cmd/link/internal/sym.s 18708 18581 -127 -0.679% cmd/asm.s 3367 3343 -24 -0.713% cmd/gofmt.s 30795 30698 -97 -0.315% cmd/link/internal/objfile.s 21828 21630 -198 -0.907% cmd/pack.s 14878 14869 -9 -0.060% cmd/vendor/github.com/google/pprof/internal/elfexec.s 6788 6782 -6 -0.088% cmd/test2json.s 1647 1641 -6 -0.364% cmd/link/internal/loader.s 48677 48483 -194 -0.399% cmd/vendor/golang.org/x/tools/go/analysis/internal/analysisflags.s 16783 16773 -10 -0.060% cmd/link/internal/loadelf.s 35464 35126 -338 -0.953% cmd/link/internal/loadmacho.s 29438 29180 -258 -0.876% cmd/link/internal/loadpe.s 16440 16371 -69 -0.420% cmd/vendor/golang.org/x/tools/go/analysis/passes/internal/analysisutil.s 2106 2100 -6 -0.285% cmd/link/internal/loadxcoff.s 11711 11615 -96 -0.820% cmd/vendor/golang.org/x/tools/go/analysis/internal/facts.s 14954 14883 -71 -0.475% cmd/vendor/golang.org/x/tools/go/ast/inspector.s 5394 5374 -20 -0.371% cmd/vendor/golang.org/x/tools/go/analysis/passes/asmdecl.s 37029 36822 -207 -0.559% cmd/vendor/golang.org/x/tools/go/analysis/passes/inspect.s 340 337 -3 -0.882% cmd/vendor/golang.org/x/tools/go/analysis/passes/cgocall.s 9919 9858 -61 -0.615% cmd/vendor/golang.org/x/tools/go/analysis/passes/bools.s 6705 6690 -15 -0.224% cmd/vendor/golang.org/x/tools/go/analysis/passes/copylock.s 9783 9741 -42 -0.429% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% cmd/vendor/golang.org/x/tools/go/analysis/passes/ifaceassert.s 2768 2762 -6 -0.217% cmd/vendor/golang.org/x/tools/go/analysis/passes/loopclosure.s 3031 2998 -33 -1.089% cmd/vendor/golang.org/x/tools/go/analysis/passes/shift.s 4382 4376 -6 -0.137% cmd/vendor/golang.org/x/tools/go/analysis/passes/stdmethods.s 8654 8642 -12 -0.139% cmd/vendor/golang.org/x/tools/go/analysis/passes/stringintconv.s 3458 3446 -12 -0.347% cmd/vendor/golang.org/x/tools/go/analysis/passes/structtag.s 8011 7995 -16 -0.200% cmd/vendor/golang.org/x/tools/go/analysis/passes/tests.s 6205 6193 -12 -0.193% cmd/vendor/golang.org/x/tools/go/ast/astutil.s 66183 65861 -322 -0.487% cmd/vendor/github.com/google/pprof/profile.s 150844 150261 -583 -0.386% cmd/vendor/golang.org/x/tools/go/analysis/passes/unreachable.s 8057 8054 -3 -0.037% cmd/vendor/golang.org/x/tools/go/analysis/passes/unusedresult.s 3670 3667 -3 -0.082% cmd/vendor/github.com/google/pprof/internal/measurement.s 10464 10440 -24 -0.229% cmd/vendor/golang.org/x/tools/go/types/typeutil.s 12319 12274 -45 -0.365% cmd/vendor/golang.org/x/tools/go/analysis/unitchecker.s 13503 13342 -161 -1.192% cmd/vendor/golang.org/x/tools/go/analysis/passes/ctrlflow.s 5261 5218 -43 -0.817% cmd/vendor/golang.org/x/tools/go/analysis/passes/errorsas.s 1462 1459 -3 -0.205% cmd/vendor/golang.org/x/tools/go/analysis/passes/lostcancel.s 9594 9582 -12 -0.125% cmd/vendor/golang.org/x/tools/go/analysis/passes/printf.s 34397 34338 -59 -0.172% cmd/vendor/github.com/google/pprof/internal/graph.s 53225 52936 -289 -0.543% cmd/vendor/github.com/ianlancetaylor/demangle.s 177450 175329 -2121 -1.195% crypto/x509.s 147892 147388 -504 -0.341% cmd/go/internal/work.s 306465 304950 -1515 -0.494% cmd/go/internal/run.s 4664 4657 -7 -0.150% crypto/tls.s 313130 311833 -1297 -0.414% net/http/httptrace.s 3979 3905 -74 -1.860% net/smtp.s 14413 14344 -69 -0.479% cmd/link/internal/ld.s 545343 542279 -3064 -0.562% cmd/link/internal/mips.s 6218 6215 -3 -0.048% cmd/link/internal/mips64.s 6108 6103 -5 -0.082% cmd/link/internal/amd64.s 18154 18112 -42 -0.231% cmd/link/internal/arm64.s 22527 22494 -33 -0.146% cmd/link/internal/arm.s 22574 22494 -80 -0.354% cmd/link/internal/s390x.s 20779 20746 -33 -0.159% cmd/link/internal/wasm.s 16531 16493 -38 -0.230% cmd/link/internal/x86.s 18906 18849 -57 -0.301% cmd/link/internal/ppc64.s 26856 26778 -78 -0.290% net/http.s 559101 556513 -2588 -0.463% net/http/cookiejar.s 15912 15885 -27 -0.170% expvar.s 9531 9525 -6 -0.063% net/http/httptest.s 16616 16475 -141 -0.849% net/http/cgi.s 23624 23458 -166 -0.703% cmd/go/internal/web.s 16546 16489 -57 -0.344% cmd/vendor/golang.org/x/mod/sumdb.s 33197 33117 -80 -0.241% net/http/fcgi.s 19266 19169 -97 -0.503% net/http/httputil.s 39875 39728 -147 -0.369% cmd/vendor/github.com/google/pprof/internal/symbolz.s 5888 5867 -21 -0.357% net/rpc.s 34154 34003 -151 -0.442% cmd/vendor/github.com/google/pprof/internal/transport.s 2746 2716 -30 -1.092% cmd/vendor/github.com/google/pprof/internal/binutils.s 35999 35875 -124 -0.344% net/rpc/jsonrpc.s 6637 6598 -39 -0.588% cmd/vendor/github.com/google/pprof/internal/symbolizer.s 11533 11458 -75 -0.650% cmd/go/internal/get.s 62921 62803 -118 -0.188% cmd/vendor/github.com/google/pprof/internal/report.s 80364 80058 -306 -0.381% cmd/go/internal/modfetch/codehost.s 89680 89066 -614 -0.685% cmd/trace.s 117171 116701 -470 -0.401% cmd/vendor/github.com/google/pprof/internal/driver.s 144268 143297 -971 -0.673% cmd/go/internal/modfetch.s 126299 125860 -439 -0.348% cmd/vendor/github.com/google/pprof/driver.s 9042 9000 -42 -0.464% cmd/go/internal/modconv.s 17947 17889 -58 -0.323% cmd/pprof.s 12399 12326 -73 -0.589% cmd/go/internal/modload.s 151182 150389 -793 -0.525% cmd/go/internal/generate.s 11738 11636 -102 -0.869% cmd/go/internal/help.s 6571 6531 -40 -0.609% cmd/go/internal/clean.s 11174 11142 -32 -0.286% cmd/go/internal/vet.s 7897 7867 -30 -0.380% cmd/go/internal/envcmd.s 22176 22095 -81 -0.365% cmd/go/internal/list.s 15216 15067 -149 -0.979% cmd/go/internal/modget.s 38698 38519 -179 -0.463% cmd/go/internal/modcmd.s 46674 46441 -233 -0.499% cmd/go/internal/test.s 64664 64456 -208 -0.322% cmd/go.s 6730 6703 -27 -0.401% cmd/compile/internal/ssa.s 3592565 3582500 -10065 -0.280% cmd/compile/internal/gc.s 1549123 1537123 -12000 -0.775% cmd/compile/internal/riscv64.s 14579 14483 -96 -0.658% cmd/compile/internal/mips.s 20578 20419 -159 -0.773% cmd/compile/internal/ppc64.s 25524 25359 -165 -0.646% cmd/compile/internal/mips64.s 19795 19636 -159 -0.803% cmd/compile/internal/wasm.s 13329 13290 -39 -0.293% cmd/compile/internal/s390x.s 28097 27892 -205 -0.730% cmd/compile/internal/arm.s 31489 31321 -168 -0.534% cmd/compile/internal/arm64.s 29803 29590 -213 -0.715% cmd/compile/internal/amd64.s 32961 33221 +260 +0.789% cmd/compile/internal/x86.s 31029 30878 -151 -0.487% total 18534966 18440341 -94625 -0.511% Change-Id: I830d37364f14f0297800adc42c99f60a74c51aca Reviewed-on: https://go-review.googlesource.com/c/go/+/226367 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-24 22:14:02 -07:00
// asm funcs with special ABI
if thearch.LinkArch.Name == "amd64" {
GCWriteBarrierReg = map[int16]*obj.LSym{
reflect,runtime: use internal ABI for selected ASM routines, attempt 2 [This is a roll-forward of CL 262319, with a fix for some Darwin test failures]. Change the definitions of selected runtime assembly routines from ABI0 (the default) to ABIInternal. The ABIInternal def is intended to indicate that these functions don't follow the existing Go runtime ABI. In addition, convert the assembly reference to runtime.main (from runtime.mainPC) to ABIInternal. Finally, for functions such as "runtime.duffzero" that are called directly from generated code, make sure that the compiler looks up the correct ABI version. This is intended to support the register abi work, however these changes should not have any issues even when GOEXPERIMENT=regabi is not in effect. Updates #27539, #40724. Change-Id: Idf507f1c06176073563845239e1a54dad51a9ea9 Reviewed-on: https://go-review.googlesource.com/c/go/+/266638 Trust: Than McIntosh <thanm@google.com> Run-TryBot: Than McIntosh <thanm@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-14 08:36:11 -04:00
x86.REG_AX: sysfunc("gcWriteBarrier"),
x86.REG_CX: sysfunc("gcWriteBarrierCX"),
x86.REG_DX: sysfunc("gcWriteBarrierDX"),
x86.REG_BX: sysfunc("gcWriteBarrierBX"),
x86.REG_BP: sysfunc("gcWriteBarrierBP"),
x86.REG_SI: sysfunc("gcWriteBarrierSI"),
x86.REG_R8: sysfunc("gcWriteBarrierR8"),
x86.REG_R9: sysfunc("gcWriteBarrierR9"),
cmd/compile, runtime: use more registers for amd64 write barrier calls The compiler-inserted write barrier calls use a special ABI for speed and to minimize the binary size impact. runtime.gcWriteBarrier takes its args in DI and AX. This change adds gcWriteBarrier wrapper functions, varying only in the register used for the second argument. (Allowing variation in the first argument doesn't offer improvements, which is convenient, as it avoids quadratic API growth.) This reduces the number of register copies. The goals are reduced binary size via reduced register pressure/copies. One downside to this change is that when the write barrier is on, we may bounce through several different write barrier wrappers, which is bad for the instruction cache. Package runtime write barrier benchmarks for this change: name old time/op new time/op delta WriteBarrier-8 16.6ns ± 6% 15.6ns ± 6% -5.73% (p=0.000 n=97+99) BulkWriteBarrier-8 4.37ns ± 7% 4.22ns ± 8% -3.45% (p=0.000 n=96+99) However, I don't particularly trust these numbers. I ran runtime.BenchmarkWriteBarrier multiple times as I rebased this change, and noticed that the results have high variance depending on the parent change, perhaps due to aligment. This change was stress tested with GOGC=1 GODEBUG=gccheckmark=1 go test std. This change reduces binary sizes: file before after Δ % addr2line 4308720 4296688 -12032 -0.279% api 5965592 5945368 -20224 -0.339% asm 5148088 5025464 -122624 -2.382% buildid 2848760 2844904 -3856 -0.135% cgo 4828968 4812840 -16128 -0.334% compile 19754720 19529744 -224976 -1.139% cover 5256840 5236600 -20240 -0.385% dist 3670312 3658264 -12048 -0.328% doc 4669608 4657576 -12032 -0.258% fix 3377976 3365944 -12032 -0.356% link 6614888 6586472 -28416 -0.430% nm 4258368 4254528 -3840 -0.090% objdump 4656336 4644304 -12032 -0.258% pack 2295176 2295432 +256 +0.011% pprof 14762356 14709364 -52992 -0.359% test2json 2824456 2820600 -3856 -0.137% trace 11684404 11643700 -40704 -0.348% vet 8284760 8252248 -32512 -0.392% total 115210328 114580040 -630288 -0.547% This change improves compiler performance: name old time/op new time/op delta Template 208ms ± 3% 207ms ± 3% -0.40% (p=0.030 n=43+44) Unicode 80.2ms ± 3% 81.3ms ± 3% +1.25% (p=0.000 n=41+44) GoTypes 699ms ± 3% 694ms ± 2% -0.71% (p=0.016 n=42+37) Compiler 3.26s ± 2% 3.23s ± 2% -0.86% (p=0.000 n=43+45) SSA 6.97s ± 1% 6.93s ± 1% -0.63% (p=0.000 n=43+45) Flate 134ms ± 3% 133ms ± 2% ~ (p=0.139 n=45+42) GoParser 165ms ± 2% 164ms ± 1% -0.79% (p=0.000 n=45+40) Reflect 434ms ± 4% 435ms ± 4% ~ (p=0.937 n=44+44) Tar 181ms ± 2% 181ms ± 2% ~ (p=0.702 n=43+45) XML 244ms ± 2% 244ms ± 2% ~ (p=0.237 n=45+44) [Geo mean] 403ms 402ms -0.29% name old user-time/op new user-time/op delta Template 271ms ± 2% 268ms ± 1% -1.40% (p=0.000 n=42+42) Unicode 117ms ± 3% 116ms ± 5% ~ (p=0.066 n=45+45) GoTypes 948ms ± 2% 936ms ± 2% -1.30% (p=0.000 n=41+40) Compiler 4.26s ± 1% 4.21s ± 2% -1.25% (p=0.000 n=37+45) SSA 9.52s ± 2% 9.41s ± 1% -1.18% (p=0.000 n=44+45) Flate 167ms ± 2% 165ms ± 2% -1.15% (p=0.000 n=44+41) GoParser 201ms ± 2% 198ms ± 1% -1.40% (p=0.000 n=43+43) Reflect 563ms ± 8% 560ms ± 7% ~ (p=0.206 n=45+44) Tar 224ms ± 2% 222ms ± 2% -0.81% (p=0.000 n=45+45) XML 308ms ± 2% 304ms ± 1% -1.17% (p=0.000 n=42+43) [Geo mean] 525ms 519ms -1.08% name old alloc/op new alloc/op delta Template 36.3MB ± 0% 36.3MB ± 0% ~ (p=0.421 n=5+5) Unicode 28.4MB ± 0% 28.3MB ± 0% ~ (p=0.056 n=5+5) GoTypes 121MB ± 0% 121MB ± 0% -0.14% (p=0.008 n=5+5) Compiler 567MB ± 0% 567MB ± 0% -0.06% (p=0.016 n=4+5) SSA 1.26GB ± 0% 1.26GB ± 0% -0.07% (p=0.008 n=5+5) Flate 22.9MB ± 0% 22.8MB ± 0% ~ (p=0.310 n=5+5) GoParser 28.0MB ± 0% 27.9MB ± 0% -0.09% (p=0.008 n=5+5) Reflect 78.4MB ± 0% 78.4MB ± 0% -0.03% (p=0.008 n=5+5) Tar 34.2MB ± 0% 34.2MB ± 0% -0.05% (p=0.008 n=5+5) XML 44.4MB ± 0% 44.4MB ± 0% -0.04% (p=0.016 n=5+5) [Geo mean] 76.4MB 76.3MB -0.05% name old allocs/op new allocs/op delta Template 356k ± 0% 356k ± 0% -0.13% (p=0.008 n=5+5) Unicode 326k ± 0% 326k ± 0% -0.07% (p=0.008 n=5+5) GoTypes 1.24M ± 0% 1.24M ± 0% -0.24% (p=0.008 n=5+5) Compiler 5.30M ± 0% 5.28M ± 0% -0.34% (p=0.008 n=5+5) SSA 11.9M ± 0% 11.9M ± 0% -0.16% (p=0.008 n=5+5) Flate 226k ± 0% 225k ± 0% -0.12% (p=0.008 n=5+5) GoParser 287k ± 0% 286k ± 0% -0.29% (p=0.008 n=5+5) Reflect 930k ± 0% 929k ± 0% -0.05% (p=0.008 n=5+5) Tar 332k ± 0% 331k ± 0% -0.12% (p=0.008 n=5+5) XML 411k ± 0% 411k ± 0% -0.12% (p=0.008 n=5+5) [Geo mean] 771k 770k -0.16% For some packages, this change significantly reduces the size of executable text. Examples: file before after Δ % cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% Full listing: file before after Δ % container/ring.s 1890 1870 -20 -1.058% container/list.s 5366 5390 +24 +0.447% internal/cpu.s 3298 3295 -3 -0.091% internal/testlog.s 1507 1501 -6 -0.398% image/color.s 8281 8248 -33 -0.399% runtime.s 480970 480075 -895 -0.186% sync.s 16497 16408 -89 -0.539% internal/singleflight.s 2591 2577 -14 -0.540% math/rand.s 10456 10438 -18 -0.172% cmd/go/internal/par.s 2801 2790 -11 -0.393% internal/reflectlite.s 28477 28417 -60 -0.211% errors.s 2750 2736 -14 -0.509% internal/oserror.s 446 434 -12 -2.691% sort.s 17061 17046 -15 -0.088% io.s 17063 16999 -64 -0.375% vendor/golang.org/x/crypto/hkdf.s 1962 1936 -26 -1.325% text/tabwriter.s 9617 9574 -43 -0.447% hash/crc64.s 3414 3408 -6 -0.176% hash/crc32.s 6657 6651 -6 -0.090% bytes.s 31932 31863 -69 -0.216% strconv.s 53158 52799 -359 -0.675% strings.s 42829 42665 -164 -0.383% encoding/ascii85.s 4833 4791 -42 -0.869% vendor/golang.org/x/text/transform.s 16810 16724 -86 -0.512% path.s 6848 6845 -3 -0.044% encoding/base32.s 9658 9592 -66 -0.683% bufio.s 23051 22908 -143 -0.620% compress/bzip2.s 11773 11764 -9 -0.076% image.s 37565 37502 -63 -0.168% syscall.s 82359 82279 -80 -0.097% regexp/syntax.s 83573 82930 -643 -0.769% image/jpeg.s 36535 36490 -45 -0.123% regexp.s 64396 64214 -182 -0.283% time.s 82724 82622 -102 -0.123% plugin.s 6539 6536 -3 -0.046% context.s 10959 10865 -94 -0.858% internal/poll.s 24286 24270 -16 -0.066% reflect.s 168304 167927 -377 -0.224% internal/fmtsort.s 7416 7376 -40 -0.539% os.s 52465 51787 -678 -1.292% cmd/go/internal/lockedfile/internal/filelock.s 2326 2317 -9 -0.387% os/signal.s 4657 4648 -9 -0.193% runtime/debug.s 6040 5998 -42 -0.695% encoding/binary.s 30838 30801 -37 -0.120% vendor/golang.org/x/net/route.s 23694 23491 -203 -0.857% path/filepath.s 17895 17889 -6 -0.034% cmd/vendor/golang.org/x/sys/unix.s 78125 78109 -16 -0.020% io/ioutil.s 6999 6996 -3 -0.043% encoding/base64.s 12094 12007 -87 -0.719% crypto/cipher.s 20466 20372 -94 -0.459% cmd/go/internal/robustio.s 2672 2669 -3 -0.112% encoding/pem.s 9302 9286 -16 -0.172% internal/obscuretestdata.s 1719 1695 -24 -1.396% crypto/aes.s 11014 11002 -12 -0.109% os/exec.s 29388 29231 -157 -0.534% cmd/internal/browser.s 2266 2260 -6 -0.265% internal/goroot.s 4601 4592 -9 -0.196% vendor/golang.org/x/crypto/chacha20poly1305.s 8945 8942 -3 -0.034% cmd/vendor/golang.org/x/crypto/ssh/terminal.s 27226 27195 -31 -0.114% index/suffixarray.s 36431 36411 -20 -0.055% fmt.s 77017 76709 -308 -0.400% encoding/hex.s 6241 6154 -87 -1.394% compress/lzw.s 7133 7069 -64 -0.897% database/sql/driver.s 18888 18877 -11 -0.058% net/url.s 29838 29739 -99 -0.332% debug/plan9obj.s 8329 8279 -50 -0.600% encoding/csv.s 12986 12902 -84 -0.647% debug/gosym.s 25403 25330 -73 -0.287% compress/flate.s 51192 50970 -222 -0.434% vendor/golang.org/x/net/dns/dnsmessage.s 86769 86208 -561 -0.647% compress/gzip.s 9791 9758 -33 -0.337% compress/zlib.s 7310 7277 -33 -0.451% archive/zip.s 42356 42166 -190 -0.449% debug/dwarf.s 108259 107730 -529 -0.489% encoding/json.s 106378 105910 -468 -0.440% os/user.s 14751 14724 -27 -0.183% database/sql.s 99011 98404 -607 -0.613% log.s 9466 9423 -43 -0.454% debug/pe.s 31272 31182 -90 -0.288% debug/macho.s 32764 32608 -156 -0.476% encoding/gob.s 136976 136517 -459 -0.335% vendor/golang.org/x/text/unicode/bidi.s 27318 27276 -42 -0.154% archive/tar.s 71416 70975 -441 -0.618% vendor/golang.org/x/net/http2/hpack.s 23892 23848 -44 -0.184% vendor/golang.org/x/text/secure/bidirule.s 3354 3351 -3 -0.089% mime/quotedprintable.s 5960 5925 -35 -0.587% net/http/internal.s 5874 5853 -21 -0.358% math/big.s 184147 183692 -455 -0.247% debug/elf.s 63775 63567 -208 -0.326% mime.s 39802 39709 -93 -0.234% encoding/xml.s 111038 110713 -325 -0.293% crypto/dsa.s 6044 6029 -15 -0.248% go/token.s 12139 12077 -62 -0.511% crypto/rand.s 6889 6866 -23 -0.334% go/scanner.s 19030 19008 -22 -0.116% flag.s 22320 22236 -84 -0.376% vendor/golang.org/x/text/unicode/norm.s 66652 66391 -261 -0.392% crypto/rsa.s 31671 31650 -21 -0.066% crypto/elliptic.s 51553 51403 -150 -0.291% internal/xcoff.s 22950 22822 -128 -0.558% go/constant.s 43750 43689 -61 -0.139% encoding/asn1.s 57086 57035 -51 -0.089% runtime/trace.s 2609 2603 -6 -0.230% crypto/x509/pkix.s 10458 10471 +13 +0.124% image/gif.s 27544 27385 -159 -0.577% vendor/golang.org/x/net/idna.s 24558 24502 -56 -0.228% image/png.s 42775 42685 -90 -0.210% vendor/golang.org/x/crypto/cryptobyte.s 33616 33493 -123 -0.366% go/ast.s 80684 80449 -235 -0.291% net/internal/socktest.s 16571 16535 -36 -0.217% crypto/ecdsa.s 11948 11936 -12 -0.100% text/template/parse.s 95138 94002 -1136 -1.194% runtime/pprof.s 59702 59639 -63 -0.106% testing.s 68427 68088 -339 -0.495% internal/testenv.s 5620 5596 -24 -0.427% testing/internal/testdeps.s 3312 3294 -18 -0.543% internal/trace.s 78473 78239 -234 -0.298% testing/iotest.s 4968 4908 -60 -1.208% os/signal/internal/pty.s 3011 2990 -21 -0.697% testing/quick.s 12179 12125 -54 -0.443% cmd/internal/bio.s 9286 9274 -12 -0.129% cmd/internal/src.s 17684 17663 -21 -0.119% cmd/internal/goobj2.s 12588 12558 -30 -0.238% cmd/internal/objabi.s 16408 16390 -18 -0.110% go/printer.s 77417 77308 -109 -0.141% go/parser.s 80045 79113 -932 -1.164% go/format.s 5434 5419 -15 -0.276% cmd/internal/goobj.s 26146 25954 -192 -0.734% runtime/pprof/internal/profile.s 102518 102178 -340 -0.332% text/template.s 95343 94935 -408 -0.428% cmd/internal/dwarf.s 31718 31572 -146 -0.460% cmd/vendor/golang.org/x/arch/arm/armasm.s 45240 45151 -89 -0.197% internal/lazytemplate.s 1470 1457 -13 -0.884% cmd/vendor/golang.org/x/arch/ppc64/ppc64asm.s 37253 37220 -33 -0.089% cmd/asm/internal/flags.s 2593 2590 -3 -0.116% cmd/asm/internal/lex.s 25068 24921 -147 -0.586% cmd/internal/buildid.s 18536 18263 -273 -1.473% cmd/vendor/golang.org/x/arch/x86/x86asm.s 80209 80105 -104 -0.130% go/doc.s 75140 74585 -555 -0.739% cmd/internal/edit.s 3893 3899 +6 +0.154% html/template.s 89377 88809 -568 -0.636% cmd/vendor/golang.org/x/arch/arm64/arm64asm.s 117998 117824 -174 -0.147% cmd/internal/obj.s 115015 114290 -725 -0.630% go/build.s 69379 68862 -517 -0.745% cmd/internal/objfile.s 48106 47982 -124 -0.258% cmd/cover.s 46239 46113 -126 -0.272% cmd/addr2line.s 2845 2833 -12 -0.422% cmd/internal/obj/arm.s 68658 66855 -1803 -2.626% cmd/internal/obj/mips.s 57486 56272 -1214 -2.112% cmd/internal/obj/riscv.s 63834 63006 -828 -1.297% cmd/compile/internal/syntax.s 146582 145456 -1126 -0.768% cmd/internal/obj/wasm.s 44117 44066 -51 -0.116% cmd/cgo.s 242645 241653 -992 -0.409% cmd/internal/obj/arm64.s 152107 147163 -4944 -3.250% net.s 295972 292010 -3962 -1.339% go/types.s 321371 319432 -1939 -0.603% vendor/golang.org/x/net/http/httpproxy.s 9450 9423 -27 -0.286% net/textproto.s 19455 19406 -49 -0.252% cmd/internal/obj/ppc64.s 125544 120456 -5088 -4.053% go/internal/srcimporter.s 6475 6409 -66 -1.019% log/syslog.s 8017 7929 -88 -1.098% cmd/compile/internal/logopt.s 10183 10162 -21 -0.206% net/mail.s 24085 23948 -137 -0.569% mime/multipart.s 21527 21420 -107 -0.497% cmd/internal/obj/s390x.s 127610 127757 +147 +0.115% go/internal/gcimporter.s 34913 34548 -365 -1.045% vendor/golang.org/x/net/nettest.s 28103 28016 -87 -0.310% cmd/go/internal/cfg.s 9967 9916 -51 -0.512% cmd/api.s 39703 39603 -100 -0.252% go/internal/gccgoimporter.s 56470 56120 -350 -0.620% go/importer.s 2077 2056 -21 -1.011% cmd/compile/internal/types.s 48202 47282 -920 -1.909% cmd/go/internal/str.s 4341 4320 -21 -0.484% cmd/internal/obj/x86.s 89440 88625 -815 -0.911% cmd/go/internal/base.s 12667 12580 -87 -0.687% cmd/go/internal/cache.s 30754 30571 -183 -0.595% cmd/doc.s 62976 62755 -221 -0.351% cmd/go/internal/search.s 20114 19993 -121 -0.602% cmd/vendor/golang.org/x/xerrors.s 17923 17855 -68 -0.379% cmd/go/internal/lockedfile.s 16451 16415 -36 -0.219% cmd/vendor/golang.org/x/mod/sumdb/note.s 18200 18150 -50 -0.275% cmd/vendor/golang.org/x/mod/module.s 17869 17851 -18 -0.101% cmd/asm/internal/arch.s 37533 37482 -51 -0.136% cmd/fix.s 87728 87492 -236 -0.269% cmd/vendor/golang.org/x/mod/sumdb/tlog.s 36394 36367 -27 -0.074% cmd/vendor/golang.org/x/mod/sumdb/dirhash.s 4990 4963 -27 -0.541% cmd/go/internal/imports.s 16499 16469 -30 -0.182% cmd/vendor/golang.org/x/mod/zip.s 18816 18745 -71 -0.377% cmd/go/internal/cmdflag.s 5126 5123 -3 -0.059% cmd/internal/test2json.s 9540 9452 -88 -0.922% cmd/go/internal/tool.s 3629 3623 -6 -0.165% cmd/go/internal/version.s 11232 11220 -12 -0.107% cmd/go/internal/mvs.s 25383 25179 -204 -0.804% cmd/nm.s 5815 5803 -12 -0.206% cmd/dist.s 210146 209140 -1006 -0.479% cmd/asm/internal/asm.s 68655 68549 -106 -0.154% cmd/vendor/golang.org/x/mod/modfile.s 72974 72510 -464 -0.636% cmd/go/internal/load.s 107548 106861 -687 -0.639% cmd/link/internal/sym.s 18708 18581 -127 -0.679% cmd/asm.s 3367 3343 -24 -0.713% cmd/gofmt.s 30795 30698 -97 -0.315% cmd/link/internal/objfile.s 21828 21630 -198 -0.907% cmd/pack.s 14878 14869 -9 -0.060% cmd/vendor/github.com/google/pprof/internal/elfexec.s 6788 6782 -6 -0.088% cmd/test2json.s 1647 1641 -6 -0.364% cmd/link/internal/loader.s 48677 48483 -194 -0.399% cmd/vendor/golang.org/x/tools/go/analysis/internal/analysisflags.s 16783 16773 -10 -0.060% cmd/link/internal/loadelf.s 35464 35126 -338 -0.953% cmd/link/internal/loadmacho.s 29438 29180 -258 -0.876% cmd/link/internal/loadpe.s 16440 16371 -69 -0.420% cmd/vendor/golang.org/x/tools/go/analysis/passes/internal/analysisutil.s 2106 2100 -6 -0.285% cmd/link/internal/loadxcoff.s 11711 11615 -96 -0.820% cmd/vendor/golang.org/x/tools/go/analysis/internal/facts.s 14954 14883 -71 -0.475% cmd/vendor/golang.org/x/tools/go/ast/inspector.s 5394 5374 -20 -0.371% cmd/vendor/golang.org/x/tools/go/analysis/passes/asmdecl.s 37029 36822 -207 -0.559% cmd/vendor/golang.org/x/tools/go/analysis/passes/inspect.s 340 337 -3 -0.882% cmd/vendor/golang.org/x/tools/go/analysis/passes/cgocall.s 9919 9858 -61 -0.615% cmd/vendor/golang.org/x/tools/go/analysis/passes/bools.s 6705 6690 -15 -0.224% cmd/vendor/golang.org/x/tools/go/analysis/passes/copylock.s 9783 9741 -42 -0.429% cmd/vendor/golang.org/x/tools/go/cfg.s 31699 30742 -957 -3.019% cmd/vendor/golang.org/x/tools/go/analysis/passes/ifaceassert.s 2768 2762 -6 -0.217% cmd/vendor/golang.org/x/tools/go/analysis/passes/loopclosure.s 3031 2998 -33 -1.089% cmd/vendor/golang.org/x/tools/go/analysis/passes/shift.s 4382 4376 -6 -0.137% cmd/vendor/golang.org/x/tools/go/analysis/passes/stdmethods.s 8654 8642 -12 -0.139% cmd/vendor/golang.org/x/tools/go/analysis/passes/stringintconv.s 3458 3446 -12 -0.347% cmd/vendor/golang.org/x/tools/go/analysis/passes/structtag.s 8011 7995 -16 -0.200% cmd/vendor/golang.org/x/tools/go/analysis/passes/tests.s 6205 6193 -12 -0.193% cmd/vendor/golang.org/x/tools/go/ast/astutil.s 66183 65861 -322 -0.487% cmd/vendor/github.com/google/pprof/profile.s 150844 150261 -583 -0.386% cmd/vendor/golang.org/x/tools/go/analysis/passes/unreachable.s 8057 8054 -3 -0.037% cmd/vendor/golang.org/x/tools/go/analysis/passes/unusedresult.s 3670 3667 -3 -0.082% cmd/vendor/github.com/google/pprof/internal/measurement.s 10464 10440 -24 -0.229% cmd/vendor/golang.org/x/tools/go/types/typeutil.s 12319 12274 -45 -0.365% cmd/vendor/golang.org/x/tools/go/analysis/unitchecker.s 13503 13342 -161 -1.192% cmd/vendor/golang.org/x/tools/go/analysis/passes/ctrlflow.s 5261 5218 -43 -0.817% cmd/vendor/golang.org/x/tools/go/analysis/passes/errorsas.s 1462 1459 -3 -0.205% cmd/vendor/golang.org/x/tools/go/analysis/passes/lostcancel.s 9594 9582 -12 -0.125% cmd/vendor/golang.org/x/tools/go/analysis/passes/printf.s 34397 34338 -59 -0.172% cmd/vendor/github.com/google/pprof/internal/graph.s 53225 52936 -289 -0.543% cmd/vendor/github.com/ianlancetaylor/demangle.s 177450 175329 -2121 -1.195% crypto/x509.s 147892 147388 -504 -0.341% cmd/go/internal/work.s 306465 304950 -1515 -0.494% cmd/go/internal/run.s 4664 4657 -7 -0.150% crypto/tls.s 313130 311833 -1297 -0.414% net/http/httptrace.s 3979 3905 -74 -1.860% net/smtp.s 14413 14344 -69 -0.479% cmd/link/internal/ld.s 545343 542279 -3064 -0.562% cmd/link/internal/mips.s 6218 6215 -3 -0.048% cmd/link/internal/mips64.s 6108 6103 -5 -0.082% cmd/link/internal/amd64.s 18154 18112 -42 -0.231% cmd/link/internal/arm64.s 22527 22494 -33 -0.146% cmd/link/internal/arm.s 22574 22494 -80 -0.354% cmd/link/internal/s390x.s 20779 20746 -33 -0.159% cmd/link/internal/wasm.s 16531 16493 -38 -0.230% cmd/link/internal/x86.s 18906 18849 -57 -0.301% cmd/link/internal/ppc64.s 26856 26778 -78 -0.290% net/http.s 559101 556513 -2588 -0.463% net/http/cookiejar.s 15912 15885 -27 -0.170% expvar.s 9531 9525 -6 -0.063% net/http/httptest.s 16616 16475 -141 -0.849% net/http/cgi.s 23624 23458 -166 -0.703% cmd/go/internal/web.s 16546 16489 -57 -0.344% cmd/vendor/golang.org/x/mod/sumdb.s 33197 33117 -80 -0.241% net/http/fcgi.s 19266 19169 -97 -0.503% net/http/httputil.s 39875 39728 -147 -0.369% cmd/vendor/github.com/google/pprof/internal/symbolz.s 5888 5867 -21 -0.357% net/rpc.s 34154 34003 -151 -0.442% cmd/vendor/github.com/google/pprof/internal/transport.s 2746 2716 -30 -1.092% cmd/vendor/github.com/google/pprof/internal/binutils.s 35999 35875 -124 -0.344% net/rpc/jsonrpc.s 6637 6598 -39 -0.588% cmd/vendor/github.com/google/pprof/internal/symbolizer.s 11533 11458 -75 -0.650% cmd/go/internal/get.s 62921 62803 -118 -0.188% cmd/vendor/github.com/google/pprof/internal/report.s 80364 80058 -306 -0.381% cmd/go/internal/modfetch/codehost.s 89680 89066 -614 -0.685% cmd/trace.s 117171 116701 -470 -0.401% cmd/vendor/github.com/google/pprof/internal/driver.s 144268 143297 -971 -0.673% cmd/go/internal/modfetch.s 126299 125860 -439 -0.348% cmd/vendor/github.com/google/pprof/driver.s 9042 9000 -42 -0.464% cmd/go/internal/modconv.s 17947 17889 -58 -0.323% cmd/pprof.s 12399 12326 -73 -0.589% cmd/go/internal/modload.s 151182 150389 -793 -0.525% cmd/go/internal/generate.s 11738 11636 -102 -0.869% cmd/go/internal/help.s 6571 6531 -40 -0.609% cmd/go/internal/clean.s 11174 11142 -32 -0.286% cmd/go/internal/vet.s 7897 7867 -30 -0.380% cmd/go/internal/envcmd.s 22176 22095 -81 -0.365% cmd/go/internal/list.s 15216 15067 -149 -0.979% cmd/go/internal/modget.s 38698 38519 -179 -0.463% cmd/go/internal/modcmd.s 46674 46441 -233 -0.499% cmd/go/internal/test.s 64664 64456 -208 -0.322% cmd/go.s 6730 6703 -27 -0.401% cmd/compile/internal/ssa.s 3592565 3582500 -10065 -0.280% cmd/compile/internal/gc.s 1549123 1537123 -12000 -0.775% cmd/compile/internal/riscv64.s 14579 14483 -96 -0.658% cmd/compile/internal/mips.s 20578 20419 -159 -0.773% cmd/compile/internal/ppc64.s 25524 25359 -165 -0.646% cmd/compile/internal/mips64.s 19795 19636 -159 -0.803% cmd/compile/internal/wasm.s 13329 13290 -39 -0.293% cmd/compile/internal/s390x.s 28097 27892 -205 -0.730% cmd/compile/internal/arm.s 31489 31321 -168 -0.534% cmd/compile/internal/arm64.s 29803 29590 -213 -0.715% cmd/compile/internal/amd64.s 32961 33221 +260 +0.789% cmd/compile/internal/x86.s 31029 30878 -151 -0.487% total 18534966 18440341 -94625 -0.511% Change-Id: I830d37364f14f0297800adc42c99f60a74c51aca Reviewed-on: https://go-review.googlesource.com/c/go/+/226367 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-24 22:14:02 -07:00
}
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
if thearch.LinkArch.Family == sys.Wasm {
reflect,runtime: use internal ABI for selected ASM routines, attempt 2 [This is a roll-forward of CL 262319, with a fix for some Darwin test failures]. Change the definitions of selected runtime assembly routines from ABI0 (the default) to ABIInternal. The ABIInternal def is intended to indicate that these functions don't follow the existing Go runtime ABI. In addition, convert the assembly reference to runtime.main (from runtime.mainPC) to ABIInternal. Finally, for functions such as "runtime.duffzero" that are called directly from generated code, make sure that the compiler looks up the correct ABI version. This is intended to support the register abi work, however these changes should not have any issues even when GOEXPERIMENT=regabi is not in effect. Updates #27539, #40724. Change-Id: Idf507f1c06176073563845239e1a54dad51a9ea9 Reviewed-on: https://go-review.googlesource.com/c/go/+/266638 Trust: Than McIntosh <thanm@google.com> Run-TryBot: Than McIntosh <thanm@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-14 08:36:11 -04:00
BoundsCheckFunc[ssa.BoundsIndex] = sysfunc("goPanicIndex")
BoundsCheckFunc[ssa.BoundsIndexU] = sysfunc("goPanicIndexU")
BoundsCheckFunc[ssa.BoundsSliceAlen] = sysfunc("goPanicSliceAlen")
BoundsCheckFunc[ssa.BoundsSliceAlenU] = sysfunc("goPanicSliceAlenU")
BoundsCheckFunc[ssa.BoundsSliceAcap] = sysfunc("goPanicSliceAcap")
BoundsCheckFunc[ssa.BoundsSliceAcapU] = sysfunc("goPanicSliceAcapU")
BoundsCheckFunc[ssa.BoundsSliceB] = sysfunc("goPanicSliceB")
BoundsCheckFunc[ssa.BoundsSliceBU] = sysfunc("goPanicSliceBU")
BoundsCheckFunc[ssa.BoundsSlice3Alen] = sysfunc("goPanicSlice3Alen")
BoundsCheckFunc[ssa.BoundsSlice3AlenU] = sysfunc("goPanicSlice3AlenU")
BoundsCheckFunc[ssa.BoundsSlice3Acap] = sysfunc("goPanicSlice3Acap")
BoundsCheckFunc[ssa.BoundsSlice3AcapU] = sysfunc("goPanicSlice3AcapU")
BoundsCheckFunc[ssa.BoundsSlice3B] = sysfunc("goPanicSlice3B")
BoundsCheckFunc[ssa.BoundsSlice3BU] = sysfunc("goPanicSlice3BU")
BoundsCheckFunc[ssa.BoundsSlice3C] = sysfunc("goPanicSlice3C")
BoundsCheckFunc[ssa.BoundsSlice3CU] = sysfunc("goPanicSlice3CU")
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
} else {
reflect,runtime: use internal ABI for selected ASM routines, attempt 2 [This is a roll-forward of CL 262319, with a fix for some Darwin test failures]. Change the definitions of selected runtime assembly routines from ABI0 (the default) to ABIInternal. The ABIInternal def is intended to indicate that these functions don't follow the existing Go runtime ABI. In addition, convert the assembly reference to runtime.main (from runtime.mainPC) to ABIInternal. Finally, for functions such as "runtime.duffzero" that are called directly from generated code, make sure that the compiler looks up the correct ABI version. This is intended to support the register abi work, however these changes should not have any issues even when GOEXPERIMENT=regabi is not in effect. Updates #27539, #40724. Change-Id: Idf507f1c06176073563845239e1a54dad51a9ea9 Reviewed-on: https://go-review.googlesource.com/c/go/+/266638 Trust: Than McIntosh <thanm@google.com> Run-TryBot: Than McIntosh <thanm@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-14 08:36:11 -04:00
BoundsCheckFunc[ssa.BoundsIndex] = sysfunc("panicIndex")
BoundsCheckFunc[ssa.BoundsIndexU] = sysfunc("panicIndexU")
BoundsCheckFunc[ssa.BoundsSliceAlen] = sysfunc("panicSliceAlen")
BoundsCheckFunc[ssa.BoundsSliceAlenU] = sysfunc("panicSliceAlenU")
BoundsCheckFunc[ssa.BoundsSliceAcap] = sysfunc("panicSliceAcap")
BoundsCheckFunc[ssa.BoundsSliceAcapU] = sysfunc("panicSliceAcapU")
BoundsCheckFunc[ssa.BoundsSliceB] = sysfunc("panicSliceB")
BoundsCheckFunc[ssa.BoundsSliceBU] = sysfunc("panicSliceBU")
BoundsCheckFunc[ssa.BoundsSlice3Alen] = sysfunc("panicSlice3Alen")
BoundsCheckFunc[ssa.BoundsSlice3AlenU] = sysfunc("panicSlice3AlenU")
BoundsCheckFunc[ssa.BoundsSlice3Acap] = sysfunc("panicSlice3Acap")
BoundsCheckFunc[ssa.BoundsSlice3AcapU] = sysfunc("panicSlice3AcapU")
BoundsCheckFunc[ssa.BoundsSlice3B] = sysfunc("panicSlice3B")
BoundsCheckFunc[ssa.BoundsSlice3BU] = sysfunc("panicSlice3BU")
BoundsCheckFunc[ssa.BoundsSlice3C] = sysfunc("panicSlice3C")
BoundsCheckFunc[ssa.BoundsSlice3CU] = sysfunc("panicSlice3CU")
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
}
if thearch.LinkArch.PtrSize == 4 {
ExtendCheckFunc[ssa.BoundsIndex] = sysvar("panicExtendIndex")
ExtendCheckFunc[ssa.BoundsIndexU] = sysvar("panicExtendIndexU")
ExtendCheckFunc[ssa.BoundsSliceAlen] = sysvar("panicExtendSliceAlen")
ExtendCheckFunc[ssa.BoundsSliceAlenU] = sysvar("panicExtendSliceAlenU")
ExtendCheckFunc[ssa.BoundsSliceAcap] = sysvar("panicExtendSliceAcap")
ExtendCheckFunc[ssa.BoundsSliceAcapU] = sysvar("panicExtendSliceAcapU")
ExtendCheckFunc[ssa.BoundsSliceB] = sysvar("panicExtendSliceB")
ExtendCheckFunc[ssa.BoundsSliceBU] = sysvar("panicExtendSliceBU")
ExtendCheckFunc[ssa.BoundsSlice3Alen] = sysvar("panicExtendSlice3Alen")
ExtendCheckFunc[ssa.BoundsSlice3AlenU] = sysvar("panicExtendSlice3AlenU")
ExtendCheckFunc[ssa.BoundsSlice3Acap] = sysvar("panicExtendSlice3Acap")
ExtendCheckFunc[ssa.BoundsSlice3AcapU] = sysvar("panicExtendSlice3AcapU")
ExtendCheckFunc[ssa.BoundsSlice3B] = sysvar("panicExtendSlice3B")
ExtendCheckFunc[ssa.BoundsSlice3BU] = sysvar("panicExtendSlice3BU")
ExtendCheckFunc[ssa.BoundsSlice3C] = sysvar("panicExtendSlice3C")
ExtendCheckFunc[ssa.BoundsSlice3CU] = sysvar("panicExtendSlice3CU")
}
cmd/compile: remove gc.Sysfunc calls from 387 backend gc.Sysfunc must not be called concurrently. We set up runtime routines used by the backend prior to doing any backend compilation. I missed the 387 ones; fix that. Sysfunc should have been unexported during 1.9. I will rectify that in a subsequent CL. Fixes #21352 Change-Id: I8386eaa1e05879c25c672b9c9fc693c938e9aeb6 Reviewed-on: https://go-review.googlesource.com/54090 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Avelino <t@avelino.xxx> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-08-08 16:38:25 -07:00
cmd/compile, cmd/link: separate stable and internal ABIs This implements compiler and linker support for separating the function calling ABI into two ABIs: a stable and an internal ABI. At the moment, the two ABIs are identical, but we'll be able to evolve the internal ABI without breaking existing assembly code that depends on the stable ABI for calling to and from Go. The Go compiler generates internal ABI symbols for all Go functions. It uses the symabis information produced by the assembler to create ABI wrappers whenever it encounters a body-less Go function that's defined in assembly or a Go function that's referenced from assembly. Since the two ABIs are currently identical, for the moment this is implemented using "ABI alias" symbols, which are just forwarding references to the native ABI symbol for a function. This way there's no actual code involved in the ABI wrapper, which is good because we're not deriving any benefit from it right now. Once the ABIs diverge, we can eliminate ABI aliases. The linker represents these different ABIs internally as different versions of the same symbol. This way, the linker keeps us honest, since every symbol definition and reference also specifies its version. The linker is responsible for resolving ABI aliases. Fixes #27539. Change-Id: I197c52ec9f8fc435db8f7a4259029b20f6d65e95 Reviewed-on: https://go-review.googlesource.com/c/147160 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-11-01 12:30:23 -04:00
// Wasm (all asm funcs with special ABIs)
WasmMove = sysvar("wasmMove")
WasmZero = sysvar("wasmZero")
WasmDiv = sysvar("wasmDiv")
WasmTruncS = sysvar("wasmTruncS")
WasmTruncU = sysvar("wasmTruncU")
cmd/compile: separate data and function LSyms Currently, obj.Ctxt's symbol table does not distinguish between ABI0 and ABIInternal symbols. This is *almost* okay, since a given symbol name in the final object file is only going to belong to one ABI or the other, but it requires that the compiler mark a Sym as being a function symbol before it retrieves its LSym. If it retrieves the LSym first, that LSym will be created as ABI0, and later marking the Sym as a function symbol won't change the LSym's ABI. Marking a Sym as a function symbol before looking up its LSym sounds easy, except Syms have a dual purpose: they are used just as interned strings (every function, variable, parameter, etc with the same textual name shares a Sym), and *also* to store state for whatever package global has that name. As a result, it's easy to slip up and look up an LSym when a Sym is serving as the name of a local variable, and then later mark it as a function when it's serving as the global with the name. In general, we were careful to avoid this, but #29610 demonstrates one case where we messed up. Because of on-demand importing from indexed export data, it's possible to compile a method wrapper for a type imported from another package before importing an init function from that package. If the argument of the method is named "init", the "init" LSym will be created as a data symbol when compiling the wrapper, before it gets marked as a function symbol. To fix this, we separate obj.Ctxt's symbol tables for ABI0 and ABIInternal symbols. This way, the compiler will simply get a different LSym once the Sym takes on its package-global meaning as a function. This fixes the above ordering issue, and means we no longer need to go out of our way to create the "init" function early and mark it as a function symbol. Fixes #29610. Updates #27539. Change-Id: Id9458b40017893d46ef9e4a3f9b47fc49e1ce8df Reviewed-on: https://go-review.googlesource.com/c/157017 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2019-01-08 22:23:52 -05:00
SigPanic = sysfunc("sigpanic")
[dev.ssa] cmd/compile: enhance command line option processing for SSA The -d compiler flag can also specify ssa phase and flag, for example -d=ssa/generic_cse/time,ssa/generic_cse/stats Spaces in the phase names can be specified with an underscore. Flags currently parsed (not necessarily recognized by the phases yet) are: on, off, mem, time, debug, stats, and test On, off and time are handled in the harness, debug, stats, and test are interpreted by the phase itself. The pass is now attached to the Func being compiled, and a new method logStats(key, ...value) on *Func to encourage a semi-standardized format for that output. Output fields are separated by tabs to ease digestion by awk and spreadsheets. For example, if f.pass.stats > 0 { f.logStat("CSE REWRITES", rewrites) } Change-Id: I16db2b5af64c50ca9a47efeb51d961147a903abc Reviewed-on: https://go-review.googlesource.com/19885 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-02-25 13:10:51 -05:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// getParam returns the Field of ith param of node n (which is a
// function/method/interface call), where the receiver of a method call is
// considered as the 0th parameter. This does not include the receiver of an
// interface call.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func getParam(n ir.Node, i int) *types.Field {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := n.Left().Type()
if n.Op() == ir.OCALLMETH {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if i == 0 {
return t.Recv()
}
return t.Params().Field(i - 1)
}
return t.Params().Field(i)
}
// dvarint writes a varint v to the funcdata in symbol x and returns the new offset
func dvarint(x *obj.LSym, off int, v int64) int {
if v < 0 || v > 1e9 {
panic(fmt.Sprintf("dvarint: bad offset for funcdata - %v", v))
}
if v < 1<<7 {
return duint8(x, off, uint8(v))
}
off = duint8(x, off, uint8((v&127)|128))
if v < 1<<14 {
return duint8(x, off, uint8(v>>7))
}
off = duint8(x, off, uint8(((v>>7)&127)|128))
if v < 1<<21 {
return duint8(x, off, uint8(v>>14))
}
off = duint8(x, off, uint8(((v>>14)&127)|128))
if v < 1<<28 {
return duint8(x, off, uint8(v>>21))
}
off = duint8(x, off, uint8(((v>>21)&127)|128))
return duint8(x, off, uint8(v>>28))
}
// emitOpenDeferInfo emits FUNCDATA information about the defers in a function
// that is using open-coded defers. This funcdata is used to determine the active
// defers in a function and execute those defers during panic processing.
//
// The funcdata is all encoded in varints (since values will almost always be less than
// 128, but stack offsets could potentially be up to 2Gbyte). All "locations" (offsets)
// for stack variables are specified as the number of bytes below varp (pointer to the
// top of the local variables) for their starting address. The format is:
//
// - Max total argument size among all the defers
// - Offset of the deferBits variable
// - Number of defers in the function
// - Information about each defer call, in reverse order of appearance in the function:
// - Total argument size of the call
// - Offset of the closure value to call
// - Number of arguments (including interface receiver or method receiver as first arg)
// - Information about each argument
// - Offset of the stored defer argument in this function's frame
// - Size of the argument
// - Offset of where argument should be placed in the args frame when making call
func (s *state) emitOpenDeferInfo() {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
x := base.Ctxt.Lookup(s.curfn.Func().LSym.Name + ".opendefer")
s.curfn.Func().LSym.Func().OpenCodedDeferInfo = x
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
off := 0
// Compute maxargsize (max size of arguments for all defers)
// first, so we can output it first to the funcdata
var maxargsize int64
for i := len(s.openDefers) - 1; i >= 0; i-- {
r := s.openDefers[i]
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
argsize := r.n.Left().Type().ArgWidth()
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if argsize > maxargsize {
maxargsize = argsize
}
}
off = dvarint(x, off, maxargsize)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = dvarint(x, off, -s.deferBitsTemp.Offset())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
off = dvarint(x, off, int64(len(s.openDefers)))
// Write in reverse-order, for ease of running in that order at runtime
for i := len(s.openDefers) - 1; i >= 0; i-- {
r := s.openDefers[i]
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = dvarint(x, off, r.n.Left().Type().ArgWidth())
off = dvarint(x, off, -r.closureNode.Offset())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
numArgs := len(r.argNodes)
if r.rcvrNode != nil {
// If there's an interface receiver, treat/place it as the first
// arg. (If there is a method receiver, it's already included as
// first arg in r.argNodes.)
numArgs++
}
off = dvarint(x, off, int64(numArgs))
if r.rcvrNode != nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = dvarint(x, off, -r.rcvrNode.Offset())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
off = dvarint(x, off, s.config.PtrSize)
off = dvarint(x, off, 0)
}
for j, arg := range r.argNodes {
f := getParam(r.n, j)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = dvarint(x, off, -arg.Offset())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
off = dvarint(x, off, f.Type.Size())
off = dvarint(x, off, f.Offset)
}
}
}
cmd/compile: add initial backend concurrency support This CL adds initial support for concurrent backend compilation. BACKGROUND The compiler currently consists (very roughly) of the following phases: 1. Initialization. 2. Lexing and parsing into the cmd/compile/internal/syntax AST. 3. Translation into the cmd/compile/internal/gc AST. 4. Some gc AST passes: typechecking, escape analysis, inlining, closure handling, expression evaluation ordering (order.go), and some lowering and optimization (walk.go). 5. Translation into the cmd/compile/internal/ssa SSA form. 6. Optimization and lowering of SSA form. 7. Translation from SSA form to assembler instructions. 8. Translation from assembler instructions to machine code. 9. Writing lots of output: machine code, DWARF symbols, type and reflection info, export data. Phase 2 was already concurrent as of Go 1.8. Phase 3 is planned for eventual removal; we hope to go straight from syntax AST to SSA. Phases 5–8 are per-function; this CL adds support for processing multiple functions concurrently. The slowest phases in the compiler are 5 and 6, so this offers the opportunity for some good speed-ups. Unfortunately, it's not quite that straightforward. In the current compiler, the latter parts of phase 4 (order, walk) are done function-at-a-time as needed. Making order and walk concurrency-safe proved hard, and they're not particularly slow, so there wasn't much reward. To enable phases 5–8 to be done concurrently, when concurrent backend compilation is requested, we complete phase 4 for all functions before starting later phases for any functions. Also, in reality, we automatically generate new functions in phase 9, such as method wrappers and equality and has routines. Those new functions then go through phases 4–8. This CL disables concurrent backend compilation after the first, big, user-provided batch of functions has been compiled. This is done to keep things simple, and because the autogenerated functions tend to be small, few, simple, and fast to compile. USAGE Concurrent backend compilation still defaults to off. To set the number of functions that may be backend-compiled concurrently, use the compiler flag -c. In future work, cmd/go will automatically set -c. Furthermore, this CL has been intentionally written so that the c=1 path has no backend concurrency whatsoever, not even spawning any goroutines. This helps ensure that, should problems arise late in the development cycle, we can simply have cmd/go set c=1 always, and revert to the original compiler behavior. MUTEXES Most of the work required to make concurrent backend compilation safe has occurred over the past month. This CL adds a handful of mutexes to get the rest of the way there; they are the mutexes that I didn't see a clean way to avoid. Some of them may still be eliminable in future work. In no particular order: * gc.funcsymsmu. The global funcsyms slice is populated lazily when we need function symbols for closures. This occurs during gc AST to SSA translation. The function funcsym also does a package lookup, which is a source of races on types.Pkg.Syms; funcsymsmu also covers that package lookup. This mutex is low priority: it adds a single global, it is in an infrequently used code path, and it is low contention. Since funcsyms may now be added in any order, we must sort them to preserve reproducible builds. * gc.largeStackFramesMu. We don't discover until after SSA compilation that a function's stack frame is gigantic. Recording that error happens basically never, but it does happen concurrently. Fix with a low priority mutex and sorting. * obj.Link.hashmu. ctxt.hash stores the mapping from types.Syms (compiler symbols) to obj.LSyms (linker symbols). It is accessed fairly heavily through all the phases. This is the only heavily contended mutex. * gc.signatlistmu. The global signatlist map is populated with types through several of the concurrent phases, including notably via ngotype during DWARF generation. It is low priority for removal. * gc.typepkgmu. Looking up symbols in the types package happens a fair amount during backend compilation and DWARF generation, particularly via ngotype. This mutex helps us to avoid a broader mutex on types.Pkg.Syms. It has low-to-moderate contention. * types.internedStringsmu. gc AST to SSA conversion and some SSA work introduce new autotmps. Those autotmps have their names interned to reduce allocations. That interning requires protecting types.internedStrings. The autotmp names are heavily re-used, and the mutex overhead and contention here are low, so it is probably a worthwhile performance optimization to keep this mutex. TESTING I have been testing this code locally by running 'go install -race cmd/compile' and then doing 'go build -a -gcflags=-c=128 std cmd' for all architectures and a variety of compiler flags. This obviously needs to be made part of the builders, but it is too expensive to make part of all.bash. I have filed #19962 for this. REPRODUCIBLE BUILDS This version of the compiler generates reproducible builds. Testing reproducible builds also needs automation, however, and is also too expensive for all.bash. This is #19961. Also of note is that some of the compiler flags used by 'toolstash -cmp' are currently incompatible with concurrent backend compilation. They still work fine with c=1. Time will tell whether this is a problem. NEXT STEPS * Continue to find and fix races and bugs, using a combination of code inspection, fuzzing, and hopefully some community experimentation. I do not know of any outstanding races, but there probably are some. * Improve testing. * Improve performance, for many values of c. * Integrate with cmd/go and fine tune. * Support concurrent compilation with the -race flag. It is a sad irony that it does not yet work. * Minor code cleanup that has been deferred during the last month due to uncertainty about the ultimate shape of this CL. PERFORMANCE Here's the buried lede, at last. :) All benchmarks are from my 8 core 2.9 GHz Intel Core i7 darwin/amd64 laptop. First, going from tip to this CL with c=1 has almost no impact. name old time/op new time/op delta Template 195ms ± 3% 194ms ± 5% ~ (p=0.370 n=30+29) Unicode 86.6ms ± 3% 87.0ms ± 7% ~ (p=0.958 n=29+30) GoTypes 548ms ± 3% 555ms ± 4% +1.35% (p=0.001 n=30+28) Compiler 2.51s ± 2% 2.54s ± 2% +1.17% (p=0.000 n=28+30) SSA 5.16s ± 3% 5.16s ± 2% ~ (p=0.910 n=30+29) Flate 124ms ± 5% 124ms ± 4% ~ (p=0.947 n=30+30) GoParser 146ms ± 3% 146ms ± 3% ~ (p=0.150 n=29+28) Reflect 354ms ± 3% 352ms ± 4% ~ (p=0.096 n=29+29) Tar 107ms ± 5% 106ms ± 3% ~ (p=0.370 n=30+29) XML 200ms ± 4% 201ms ± 4% ~ (p=0.313 n=29+28) [Geo mean] 332ms 333ms +0.10% name old user-time/op new user-time/op delta Template 227ms ± 5% 225ms ± 5% ~ (p=0.457 n=28+27) Unicode 109ms ± 4% 109ms ± 5% ~ (p=0.758 n=29+29) GoTypes 713ms ± 4% 721ms ± 5% ~ (p=0.051 n=30+29) Compiler 3.36s ± 2% 3.38s ± 3% ~ (p=0.146 n=30+30) SSA 7.46s ± 3% 7.47s ± 3% ~ (p=0.804 n=30+29) Flate 146ms ± 7% 147ms ± 3% ~ (p=0.833 n=29+27) GoParser 179ms ± 5% 179ms ± 5% ~ (p=0.866 n=30+30) Reflect 431ms ± 4% 429ms ± 4% ~ (p=0.593 n=29+30) Tar 124ms ± 5% 123ms ± 5% ~ (p=0.140 n=29+29) XML 243ms ± 4% 242ms ± 7% ~ (p=0.404 n=29+29) [Geo mean] 415ms 415ms +0.02% name old obj-bytes new obj-bytes delta Template 382k ± 0% 382k ± 0% ~ (all equal) Unicode 203k ± 0% 203k ± 0% ~ (all equal) GoTypes 1.18M ± 0% 1.18M ± 0% ~ (all equal) Compiler 3.98M ± 0% 3.98M ± 0% ~ (all equal) SSA 8.28M ± 0% 8.28M ± 0% ~ (all equal) Flate 230k ± 0% 230k ± 0% ~ (all equal) GoParser 287k ± 0% 287k ± 0% ~ (all equal) Reflect 1.00M ± 0% 1.00M ± 0% ~ (all equal) Tar 190k ± 0% 190k ± 0% ~ (all equal) XML 416k ± 0% 416k ± 0% ~ (all equal) [Geo mean] 660k 660k +0.00% Comparing this CL to itself, from c=1 to c=2 improves real times 20-30%, costs 5-10% more CPU time, and adds about 2% alloc. The allocation increase comes from allocating more ssa.Caches. name old time/op new time/op delta Template 202ms ± 3% 149ms ± 3% -26.15% (p=0.000 n=49+49) Unicode 87.4ms ± 4% 84.2ms ± 3% -3.68% (p=0.000 n=48+48) GoTypes 560ms ± 2% 398ms ± 2% -28.96% (p=0.000 n=49+49) Compiler 2.46s ± 3% 1.76s ± 2% -28.61% (p=0.000 n=48+46) SSA 6.17s ± 2% 4.04s ± 1% -34.52% (p=0.000 n=49+49) Flate 126ms ± 3% 92ms ± 2% -26.81% (p=0.000 n=49+48) GoParser 148ms ± 4% 107ms ± 2% -27.78% (p=0.000 n=49+48) Reflect 361ms ± 3% 281ms ± 3% -22.10% (p=0.000 n=49+49) Tar 109ms ± 4% 86ms ± 3% -20.81% (p=0.000 n=49+47) XML 204ms ± 3% 144ms ± 2% -29.53% (p=0.000 n=48+45) name old user-time/op new user-time/op delta Template 246ms ± 9% 246ms ± 4% ~ (p=0.401 n=50+48) Unicode 109ms ± 4% 111ms ± 4% +1.47% (p=0.000 n=44+50) GoTypes 728ms ± 3% 765ms ± 3% +5.04% (p=0.000 n=46+50) Compiler 3.33s ± 3% 3.41s ± 2% +2.31% (p=0.000 n=49+48) SSA 8.52s ± 2% 9.11s ± 2% +6.93% (p=0.000 n=49+47) Flate 149ms ± 4% 161ms ± 3% +8.13% (p=0.000 n=50+47) GoParser 181ms ± 5% 192ms ± 2% +6.40% (p=0.000 n=49+46) Reflect 452ms ± 9% 474ms ± 2% +4.99% (p=0.000 n=50+48) Tar 126ms ± 6% 136ms ± 4% +7.95% (p=0.000 n=50+49) XML 247ms ± 5% 264ms ± 3% +6.94% (p=0.000 n=48+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 39.3MB ± 0% +1.48% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.2MB ± 0% +1.19% (p=0.008 n=5+5) GoTypes 113MB ± 0% 114MB ± 0% +0.69% (p=0.008 n=5+5) Compiler 443MB ± 0% 447MB ± 0% +0.95% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.26GB ± 0% +0.89% (p=0.008 n=5+5) Flate 25.3MB ± 0% 25.9MB ± 1% +2.35% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 32.2MB ± 0% +1.59% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 78.9MB ± 0% +0.91% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.0MB ± 0% +1.80% (p=0.008 n=5+5) XML 42.4MB ± 0% 43.4MB ± 0% +2.35% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 379k ± 0% 378k ± 0% ~ (p=0.421 n=5+5) Unicode 322k ± 0% 321k ± 0% ~ (p=0.222 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.548 n=5+5) Compiler 4.12M ± 0% 4.11M ± 0% -0.14% (p=0.032 n=5+5) SSA 9.72M ± 0% 9.72M ± 0% ~ (p=0.421 n=5+5) Flate 234k ± 1% 234k ± 0% ~ (p=0.421 n=5+5) GoParser 316k ± 1% 315k ± 0% ~ (p=0.222 n=5+5) Reflect 980k ± 0% 979k ± 0% ~ (p=0.095 n=5+5) Tar 249k ± 1% 249k ± 1% ~ (p=0.841 n=5+5) XML 392k ± 0% 391k ± 0% ~ (p=0.095 n=5+5) From c=1 to c=4, real time is down ~40%, CPU usage up 10-20%, alloc up ~5%: name old time/op new time/op delta Template 203ms ± 3% 131ms ± 5% -35.45% (p=0.000 n=50+50) Unicode 87.2ms ± 4% 84.1ms ± 2% -3.61% (p=0.000 n=48+47) GoTypes 560ms ± 4% 310ms ± 2% -44.65% (p=0.000 n=50+49) Compiler 2.47s ± 3% 1.41s ± 2% -43.10% (p=0.000 n=50+46) SSA 6.17s ± 2% 3.20s ± 2% -48.06% (p=0.000 n=49+49) Flate 126ms ± 4% 74ms ± 2% -41.06% (p=0.000 n=49+48) GoParser 148ms ± 4% 89ms ± 3% -39.97% (p=0.000 n=49+50) Reflect 360ms ± 3% 242ms ± 3% -32.81% (p=0.000 n=49+49) Tar 108ms ± 4% 73ms ± 4% -32.48% (p=0.000 n=50+49) XML 203ms ± 3% 119ms ± 3% -41.56% (p=0.000 n=49+48) name old user-time/op new user-time/op delta Template 246ms ± 9% 287ms ± 9% +16.98% (p=0.000 n=50+50) Unicode 109ms ± 4% 118ms ± 5% +7.56% (p=0.000 n=46+50) GoTypes 735ms ± 4% 806ms ± 2% +9.62% (p=0.000 n=50+50) Compiler 3.34s ± 4% 3.56s ± 2% +6.78% (p=0.000 n=49+49) SSA 8.54s ± 3% 10.04s ± 3% +17.55% (p=0.000 n=50+50) Flate 149ms ± 6% 176ms ± 3% +17.82% (p=0.000 n=50+48) GoParser 181ms ± 5% 213ms ± 3% +17.47% (p=0.000 n=50+50) Reflect 453ms ± 6% 499ms ± 2% +10.11% (p=0.000 n=50+48) Tar 126ms ± 5% 149ms ±11% +18.76% (p=0.000 n=50+50) XML 246ms ± 5% 287ms ± 4% +16.53% (p=0.000 n=49+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 40.4MB ± 0% +4.21% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.9MB ± 0% +3.68% (p=0.008 n=5+5) GoTypes 113MB ± 0% 116MB ± 0% +2.71% (p=0.008 n=5+5) Compiler 443MB ± 0% 455MB ± 0% +2.75% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.27GB ± 0% +1.84% (p=0.008 n=5+5) Flate 25.3MB ± 0% 26.9MB ± 1% +6.31% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 33.2MB ± 0% +4.61% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 80.2MB ± 0% +2.53% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.9MB ± 0% +5.19% (p=0.008 n=5+5) XML 42.4MB ± 0% 44.6MB ± 0% +5.20% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 380k ± 0% 379k ± 0% -0.39% (p=0.032 n=5+5) Unicode 321k ± 0% 321k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.421 n=5+5) Compiler 4.12M ± 0% 4.14M ± 0% +0.52% (p=0.008 n=5+5) SSA 9.72M ± 0% 9.76M ± 0% +0.37% (p=0.008 n=5+5) Flate 234k ± 1% 234k ± 1% ~ (p=0.690 n=5+5) GoParser 316k ± 0% 317k ± 1% ~ (p=0.841 n=5+5) Reflect 981k ± 0% 981k ± 0% ~ (p=1.000 n=5+5) Tar 250k ± 0% 249k ± 1% ~ (p=0.151 n=5+5) XML 393k ± 0% 392k ± 0% ~ (p=0.056 n=5+5) Going beyond c=4 on my machine tends to increase CPU time and allocs without impacting real time. The CPU time numbers matter, because when there are many concurrent compilation processes, that will impact the overall throughput. The numbers above are in many ways the best case scenario; we can take full advantage of all cores. Fortunately, the most common compilation scenario is incremental re-compilation of a single package during a build/test cycle. Updates #15756 Change-Id: I6725558ca2069edec0ac5b0d1683105a9fff6bea Reviewed-on: https://go-review.googlesource.com/40693 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Robert Griesemer <gri@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-19 08:27:26 -07:00
// buildssa builds an SSA function for fn.
// worker indicates which of the backend workers is doing the processing.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func buildssa(fn ir.Node, worker int) *ssa.Func {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
name := ir.FuncName(fn)
cmd/compile: also check package.function for GOSSAFUNC match Old behavior is still enabled because it doesn't hurt to leave it in and existing users of this feature (there are dozens of us!) will not be surprised. Adding this finer control allows users to avoid writing ssa.html where they can't, shouldn't, or just don't want to. Example, both ways: $ GOSSAFUNC="(*Reader).Reset" go test -c -o ./a compress/gzip dumped SSA to bytes/ssa.html dumped SSA to strings/ssa.html dumped SSA to bufio/ssa.html dumped SSA to compress/gzip/ssa.html $ GOSSAFUNC="compress/gzip.(*Reader).Reset" go test -c -o ./a compress/gzip dumped SSA to compress/gzip/ssa.html Updates #40919. Change-Id: I06b77c3c1d326372a32651570b5dd6e56dfb1d7f Reviewed-on: https://go-review.googlesource.com/c/go/+/250340 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-08-24 22:57:01 -04:00
printssa := false
if ssaDump != "" { // match either a simple name e.g. "(*Reader).Reset", or a package.name e.g. "compress/gzip.(*Reader).Reset"
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
printssa = name == ssaDump || base.Ctxt.Pkgpath+"."+name == ssaDump
cmd/compile: also check package.function for GOSSAFUNC match Old behavior is still enabled because it doesn't hurt to leave it in and existing users of this feature (there are dozens of us!) will not be surprised. Adding this finer control allows users to avoid writing ssa.html where they can't, shouldn't, or just don't want to. Example, both ways: $ GOSSAFUNC="(*Reader).Reset" go test -c -o ./a compress/gzip dumped SSA to bytes/ssa.html dumped SSA to strings/ssa.html dumped SSA to bufio/ssa.html dumped SSA to compress/gzip/ssa.html $ GOSSAFUNC="compress/gzip.(*Reader).Reset" go test -c -o ./a compress/gzip dumped SSA to compress/gzip/ssa.html Updates #40919. Change-Id: I06b77c3c1d326372a32651570b5dd6e56dfb1d7f Reviewed-on: https://go-review.googlesource.com/c/go/+/250340 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-08-24 22:57:01 -04:00
}
cmd/compile: display AST IR in ssa.html This change adds a new column, AST IR. That column contains nodes for a function specified in $GOSSAFUNC. Also this CL enables horizontal scrolling of sources and AST columns. Fixes #26662 Change-Id: I3fba39fd998bb05e9c93038e8ec2384c69613b24 Reviewed-on: https://go-review.googlesource.com/126858 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-31 18:13:05 +03:00
var astBuf *bytes.Buffer
[dev.ssa] cmd/compile: change ssa compilation trigger We used to compile everything with SSA and then decide whether to use the result or not. It was useful when we were working on coverage without much regard for correctness, but not so much now. Instead, let's decide what we're going to compile and go through the SSA compiler for only those functions. TODO: next CL: get rid of all the UnimplementedF stuff. Change-Id: If629addd8b62cd38ef553fd5d835114137885ce0 Reviewed-on: https://go-review.googlesource.com/17763 Reviewed-by: David Chase <drchase@google.com>
2015-12-11 20:41:52 -08:00
if printssa {
cmd/compile: display AST IR in ssa.html This change adds a new column, AST IR. That column contains nodes for a function specified in $GOSSAFUNC. Also this CL enables horizontal scrolling of sources and AST columns. Fixes #26662 Change-Id: I3fba39fd998bb05e9c93038e8ec2384c69613b24 Reviewed-on: https://go-review.googlesource.com/126858 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-31 18:13:05 +03:00
astBuf = &bytes.Buffer{}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
ir.FDumpList(astBuf, "buildssa-enter", fn.Func().Enter)
ir.FDumpList(astBuf, "buildssa-body", fn.Body())
ir.FDumpList(astBuf, "buildssa-exit", fn.Func().Exit)
cmd/compile: display AST IR in ssa.html This change adds a new column, AST IR. That column contains nodes for a function specified in $GOSSAFUNC. Also this CL enables horizontal scrolling of sources and AST columns. Fixes #26662 Change-Id: I3fba39fd998bb05e9c93038e8ec2384c69613b24 Reviewed-on: https://go-review.googlesource.com/126858 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-31 18:13:05 +03:00
if ssaDumpStdout {
fmt.Println("generating SSA for", name)
fmt.Print(astBuf.String())
}
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
var s state
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.pushLine(fn.Pos())
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
defer s.popLine()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.hasdefer = fn.Func().HasDefer()
if fn.Func().Pragma&ir.CgoUnsafeArgs != 0 {
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
s.cgoUnsafeArgs = true
}
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
fe := ssafn{
curfn: fn,
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
log: printssa && ssaDumpStdout,
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
}
cmd/compile: provide pos and curfn to temp Concurrent compilation requires providing an explicit position and curfn to temp. This implementation of tempAt temporarily continues to use the globals lineno and Curfn, so as not to collide with mdempsky's work for #19683 eliminating the Curfn dependency from func nod. Updates #15756 Updates #19683 Change-Id: Ib3149ca4b0740e9f6eea44babc6f34cdd63028a9 Reviewed-on: https://go-review.googlesource.com/38592 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 20:27:54 -07:00
s.curfn = fn
[dev.ssa] cmd/compile: enhance command line option processing for SSA The -d compiler flag can also specify ssa phase and flag, for example -d=ssa/generic_cse/time,ssa/generic_cse/stats Spaces in the phase names can be specified with an underscore. Flags currently parsed (not necessarily recognized by the phases yet) are: on, off, mem, time, debug, stats, and test On, off and time are handled in the harness, debug, stats, and test are interpreted by the phase itself. The pass is now attached to the Func being compiled, and a new method logStats(key, ...value) on *Func to encourage a semi-standardized format for that output. Output fields are separated by tabs to ease digestion by awk and spreadsheets. For example, if f.pass.stats > 0 { f.logStat("CSE REWRITES", rewrites) } Change-Id: I16db2b5af64c50ca9a47efeb51d961147a903abc Reviewed-on: https://go-review.googlesource.com/19885 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-02-25 13:10:51 -05:00
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
s.f = ssa.NewFunc(&fe)
cmd/compile: rearrange fields between ssa.Func, ssa.Cache, and ssa.Config This makes ssa.Func, ssa.Cache, and ssa.Config fulfill the roles laid out for them in CL 38160. The only non-trivial change in this CL is how cached values and blocks get IDs. Prior to this CL, their IDs were assigned as part of resetting the cache, and only modified IDs were reset. This required knowing how many values and blocks were modified, which required a tight coupling between ssa.Func and ssa.Config. To eliminate that coupling, we now zero values and blocks during reset, and assign their IDs when they are used. Since unused values and blocks have ID == 0, we can efficiently find the last used value/block, to avoid zeroing everything. Bulk zeroing is efficient, but not efficient enough to obviate the need to avoid zeroing everything every time. As a happy side-effect, ssa.Func.Free is no longer necessary. DebugHashMatch and friends now belong in func.go. They have been left in place for clarity and review. I will move them in a subsequent CL. Passes toolstash -cmp. No compiler performance impact. No change in 'go test cmd/compile/internal/ssa' execution time. Change-Id: I2eb7af58da067ef6a36e815a6f386cfe8634d098 Reviewed-on: https://go-review.googlesource.com/38167 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-15 11:15:13 -07:00
s.config = ssaConfig
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.f.Type = fn.Type()
cmd/compile: rearrange fields between ssa.Func, ssa.Cache, and ssa.Config This makes ssa.Func, ssa.Cache, and ssa.Config fulfill the roles laid out for them in CL 38160. The only non-trivial change in this CL is how cached values and blocks get IDs. Prior to this CL, their IDs were assigned as part of resetting the cache, and only modified IDs were reset. This required knowing how many values and blocks were modified, which required a tight coupling between ssa.Func and ssa.Config. To eliminate that coupling, we now zero values and blocks during reset, and assign their IDs when they are used. Since unused values and blocks have ID == 0, we can efficiently find the last used value/block, to avoid zeroing everything. Bulk zeroing is efficient, but not efficient enough to obviate the need to avoid zeroing everything every time. As a happy side-effect, ssa.Func.Free is no longer necessary. DebugHashMatch and friends now belong in func.go. They have been left in place for clarity and review. I will move them in a subsequent CL. Passes toolstash -cmp. No compiler performance impact. No change in 'go test cmd/compile/internal/ssa' execution time. Change-Id: I2eb7af58da067ef6a36e815a6f386cfe8634d098 Reviewed-on: https://go-review.googlesource.com/38167 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-15 11:15:13 -07:00
s.f.Config = ssaConfig
cmd/compile: add initial backend concurrency support This CL adds initial support for concurrent backend compilation. BACKGROUND The compiler currently consists (very roughly) of the following phases: 1. Initialization. 2. Lexing and parsing into the cmd/compile/internal/syntax AST. 3. Translation into the cmd/compile/internal/gc AST. 4. Some gc AST passes: typechecking, escape analysis, inlining, closure handling, expression evaluation ordering (order.go), and some lowering and optimization (walk.go). 5. Translation into the cmd/compile/internal/ssa SSA form. 6. Optimization and lowering of SSA form. 7. Translation from SSA form to assembler instructions. 8. Translation from assembler instructions to machine code. 9. Writing lots of output: machine code, DWARF symbols, type and reflection info, export data. Phase 2 was already concurrent as of Go 1.8. Phase 3 is planned for eventual removal; we hope to go straight from syntax AST to SSA. Phases 5–8 are per-function; this CL adds support for processing multiple functions concurrently. The slowest phases in the compiler are 5 and 6, so this offers the opportunity for some good speed-ups. Unfortunately, it's not quite that straightforward. In the current compiler, the latter parts of phase 4 (order, walk) are done function-at-a-time as needed. Making order and walk concurrency-safe proved hard, and they're not particularly slow, so there wasn't much reward. To enable phases 5–8 to be done concurrently, when concurrent backend compilation is requested, we complete phase 4 for all functions before starting later phases for any functions. Also, in reality, we automatically generate new functions in phase 9, such as method wrappers and equality and has routines. Those new functions then go through phases 4–8. This CL disables concurrent backend compilation after the first, big, user-provided batch of functions has been compiled. This is done to keep things simple, and because the autogenerated functions tend to be small, few, simple, and fast to compile. USAGE Concurrent backend compilation still defaults to off. To set the number of functions that may be backend-compiled concurrently, use the compiler flag -c. In future work, cmd/go will automatically set -c. Furthermore, this CL has been intentionally written so that the c=1 path has no backend concurrency whatsoever, not even spawning any goroutines. This helps ensure that, should problems arise late in the development cycle, we can simply have cmd/go set c=1 always, and revert to the original compiler behavior. MUTEXES Most of the work required to make concurrent backend compilation safe has occurred over the past month. This CL adds a handful of mutexes to get the rest of the way there; they are the mutexes that I didn't see a clean way to avoid. Some of them may still be eliminable in future work. In no particular order: * gc.funcsymsmu. The global funcsyms slice is populated lazily when we need function symbols for closures. This occurs during gc AST to SSA translation. The function funcsym also does a package lookup, which is a source of races on types.Pkg.Syms; funcsymsmu also covers that package lookup. This mutex is low priority: it adds a single global, it is in an infrequently used code path, and it is low contention. Since funcsyms may now be added in any order, we must sort them to preserve reproducible builds. * gc.largeStackFramesMu. We don't discover until after SSA compilation that a function's stack frame is gigantic. Recording that error happens basically never, but it does happen concurrently. Fix with a low priority mutex and sorting. * obj.Link.hashmu. ctxt.hash stores the mapping from types.Syms (compiler symbols) to obj.LSyms (linker symbols). It is accessed fairly heavily through all the phases. This is the only heavily contended mutex. * gc.signatlistmu. The global signatlist map is populated with types through several of the concurrent phases, including notably via ngotype during DWARF generation. It is low priority for removal. * gc.typepkgmu. Looking up symbols in the types package happens a fair amount during backend compilation and DWARF generation, particularly via ngotype. This mutex helps us to avoid a broader mutex on types.Pkg.Syms. It has low-to-moderate contention. * types.internedStringsmu. gc AST to SSA conversion and some SSA work introduce new autotmps. Those autotmps have their names interned to reduce allocations. That interning requires protecting types.internedStrings. The autotmp names are heavily re-used, and the mutex overhead and contention here are low, so it is probably a worthwhile performance optimization to keep this mutex. TESTING I have been testing this code locally by running 'go install -race cmd/compile' and then doing 'go build -a -gcflags=-c=128 std cmd' for all architectures and a variety of compiler flags. This obviously needs to be made part of the builders, but it is too expensive to make part of all.bash. I have filed #19962 for this. REPRODUCIBLE BUILDS This version of the compiler generates reproducible builds. Testing reproducible builds also needs automation, however, and is also too expensive for all.bash. This is #19961. Also of note is that some of the compiler flags used by 'toolstash -cmp' are currently incompatible with concurrent backend compilation. They still work fine with c=1. Time will tell whether this is a problem. NEXT STEPS * Continue to find and fix races and bugs, using a combination of code inspection, fuzzing, and hopefully some community experimentation. I do not know of any outstanding races, but there probably are some. * Improve testing. * Improve performance, for many values of c. * Integrate with cmd/go and fine tune. * Support concurrent compilation with the -race flag. It is a sad irony that it does not yet work. * Minor code cleanup that has been deferred during the last month due to uncertainty about the ultimate shape of this CL. PERFORMANCE Here's the buried lede, at last. :) All benchmarks are from my 8 core 2.9 GHz Intel Core i7 darwin/amd64 laptop. First, going from tip to this CL with c=1 has almost no impact. name old time/op new time/op delta Template 195ms ± 3% 194ms ± 5% ~ (p=0.370 n=30+29) Unicode 86.6ms ± 3% 87.0ms ± 7% ~ (p=0.958 n=29+30) GoTypes 548ms ± 3% 555ms ± 4% +1.35% (p=0.001 n=30+28) Compiler 2.51s ± 2% 2.54s ± 2% +1.17% (p=0.000 n=28+30) SSA 5.16s ± 3% 5.16s ± 2% ~ (p=0.910 n=30+29) Flate 124ms ± 5% 124ms ± 4% ~ (p=0.947 n=30+30) GoParser 146ms ± 3% 146ms ± 3% ~ (p=0.150 n=29+28) Reflect 354ms ± 3% 352ms ± 4% ~ (p=0.096 n=29+29) Tar 107ms ± 5% 106ms ± 3% ~ (p=0.370 n=30+29) XML 200ms ± 4% 201ms ± 4% ~ (p=0.313 n=29+28) [Geo mean] 332ms 333ms +0.10% name old user-time/op new user-time/op delta Template 227ms ± 5% 225ms ± 5% ~ (p=0.457 n=28+27) Unicode 109ms ± 4% 109ms ± 5% ~ (p=0.758 n=29+29) GoTypes 713ms ± 4% 721ms ± 5% ~ (p=0.051 n=30+29) Compiler 3.36s ± 2% 3.38s ± 3% ~ (p=0.146 n=30+30) SSA 7.46s ± 3% 7.47s ± 3% ~ (p=0.804 n=30+29) Flate 146ms ± 7% 147ms ± 3% ~ (p=0.833 n=29+27) GoParser 179ms ± 5% 179ms ± 5% ~ (p=0.866 n=30+30) Reflect 431ms ± 4% 429ms ± 4% ~ (p=0.593 n=29+30) Tar 124ms ± 5% 123ms ± 5% ~ (p=0.140 n=29+29) XML 243ms ± 4% 242ms ± 7% ~ (p=0.404 n=29+29) [Geo mean] 415ms 415ms +0.02% name old obj-bytes new obj-bytes delta Template 382k ± 0% 382k ± 0% ~ (all equal) Unicode 203k ± 0% 203k ± 0% ~ (all equal) GoTypes 1.18M ± 0% 1.18M ± 0% ~ (all equal) Compiler 3.98M ± 0% 3.98M ± 0% ~ (all equal) SSA 8.28M ± 0% 8.28M ± 0% ~ (all equal) Flate 230k ± 0% 230k ± 0% ~ (all equal) GoParser 287k ± 0% 287k ± 0% ~ (all equal) Reflect 1.00M ± 0% 1.00M ± 0% ~ (all equal) Tar 190k ± 0% 190k ± 0% ~ (all equal) XML 416k ± 0% 416k ± 0% ~ (all equal) [Geo mean] 660k 660k +0.00% Comparing this CL to itself, from c=1 to c=2 improves real times 20-30%, costs 5-10% more CPU time, and adds about 2% alloc. The allocation increase comes from allocating more ssa.Caches. name old time/op new time/op delta Template 202ms ± 3% 149ms ± 3% -26.15% (p=0.000 n=49+49) Unicode 87.4ms ± 4% 84.2ms ± 3% -3.68% (p=0.000 n=48+48) GoTypes 560ms ± 2% 398ms ± 2% -28.96% (p=0.000 n=49+49) Compiler 2.46s ± 3% 1.76s ± 2% -28.61% (p=0.000 n=48+46) SSA 6.17s ± 2% 4.04s ± 1% -34.52% (p=0.000 n=49+49) Flate 126ms ± 3% 92ms ± 2% -26.81% (p=0.000 n=49+48) GoParser 148ms ± 4% 107ms ± 2% -27.78% (p=0.000 n=49+48) Reflect 361ms ± 3% 281ms ± 3% -22.10% (p=0.000 n=49+49) Tar 109ms ± 4% 86ms ± 3% -20.81% (p=0.000 n=49+47) XML 204ms ± 3% 144ms ± 2% -29.53% (p=0.000 n=48+45) name old user-time/op new user-time/op delta Template 246ms ± 9% 246ms ± 4% ~ (p=0.401 n=50+48) Unicode 109ms ± 4% 111ms ± 4% +1.47% (p=0.000 n=44+50) GoTypes 728ms ± 3% 765ms ± 3% +5.04% (p=0.000 n=46+50) Compiler 3.33s ± 3% 3.41s ± 2% +2.31% (p=0.000 n=49+48) SSA 8.52s ± 2% 9.11s ± 2% +6.93% (p=0.000 n=49+47) Flate 149ms ± 4% 161ms ± 3% +8.13% (p=0.000 n=50+47) GoParser 181ms ± 5% 192ms ± 2% +6.40% (p=0.000 n=49+46) Reflect 452ms ± 9% 474ms ± 2% +4.99% (p=0.000 n=50+48) Tar 126ms ± 6% 136ms ± 4% +7.95% (p=0.000 n=50+49) XML 247ms ± 5% 264ms ± 3% +6.94% (p=0.000 n=48+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 39.3MB ± 0% +1.48% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.2MB ± 0% +1.19% (p=0.008 n=5+5) GoTypes 113MB ± 0% 114MB ± 0% +0.69% (p=0.008 n=5+5) Compiler 443MB ± 0% 447MB ± 0% +0.95% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.26GB ± 0% +0.89% (p=0.008 n=5+5) Flate 25.3MB ± 0% 25.9MB ± 1% +2.35% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 32.2MB ± 0% +1.59% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 78.9MB ± 0% +0.91% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.0MB ± 0% +1.80% (p=0.008 n=5+5) XML 42.4MB ± 0% 43.4MB ± 0% +2.35% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 379k ± 0% 378k ± 0% ~ (p=0.421 n=5+5) Unicode 322k ± 0% 321k ± 0% ~ (p=0.222 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.548 n=5+5) Compiler 4.12M ± 0% 4.11M ± 0% -0.14% (p=0.032 n=5+5) SSA 9.72M ± 0% 9.72M ± 0% ~ (p=0.421 n=5+5) Flate 234k ± 1% 234k ± 0% ~ (p=0.421 n=5+5) GoParser 316k ± 1% 315k ± 0% ~ (p=0.222 n=5+5) Reflect 980k ± 0% 979k ± 0% ~ (p=0.095 n=5+5) Tar 249k ± 1% 249k ± 1% ~ (p=0.841 n=5+5) XML 392k ± 0% 391k ± 0% ~ (p=0.095 n=5+5) From c=1 to c=4, real time is down ~40%, CPU usage up 10-20%, alloc up ~5%: name old time/op new time/op delta Template 203ms ± 3% 131ms ± 5% -35.45% (p=0.000 n=50+50) Unicode 87.2ms ± 4% 84.1ms ± 2% -3.61% (p=0.000 n=48+47) GoTypes 560ms ± 4% 310ms ± 2% -44.65% (p=0.000 n=50+49) Compiler 2.47s ± 3% 1.41s ± 2% -43.10% (p=0.000 n=50+46) SSA 6.17s ± 2% 3.20s ± 2% -48.06% (p=0.000 n=49+49) Flate 126ms ± 4% 74ms ± 2% -41.06% (p=0.000 n=49+48) GoParser 148ms ± 4% 89ms ± 3% -39.97% (p=0.000 n=49+50) Reflect 360ms ± 3% 242ms ± 3% -32.81% (p=0.000 n=49+49) Tar 108ms ± 4% 73ms ± 4% -32.48% (p=0.000 n=50+49) XML 203ms ± 3% 119ms ± 3% -41.56% (p=0.000 n=49+48) name old user-time/op new user-time/op delta Template 246ms ± 9% 287ms ± 9% +16.98% (p=0.000 n=50+50) Unicode 109ms ± 4% 118ms ± 5% +7.56% (p=0.000 n=46+50) GoTypes 735ms ± 4% 806ms ± 2% +9.62% (p=0.000 n=50+50) Compiler 3.34s ± 4% 3.56s ± 2% +6.78% (p=0.000 n=49+49) SSA 8.54s ± 3% 10.04s ± 3% +17.55% (p=0.000 n=50+50) Flate 149ms ± 6% 176ms ± 3% +17.82% (p=0.000 n=50+48) GoParser 181ms ± 5% 213ms ± 3% +17.47% (p=0.000 n=50+50) Reflect 453ms ± 6% 499ms ± 2% +10.11% (p=0.000 n=50+48) Tar 126ms ± 5% 149ms ±11% +18.76% (p=0.000 n=50+50) XML 246ms ± 5% 287ms ± 4% +16.53% (p=0.000 n=49+50) name old alloc/op new alloc/op delta Template 38.8MB ± 0% 40.4MB ± 0% +4.21% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 30.9MB ± 0% +3.68% (p=0.008 n=5+5) GoTypes 113MB ± 0% 116MB ± 0% +2.71% (p=0.008 n=5+5) Compiler 443MB ± 0% 455MB ± 0% +2.75% (p=0.008 n=5+5) SSA 1.25GB ± 0% 1.27GB ± 0% +1.84% (p=0.008 n=5+5) Flate 25.3MB ± 0% 26.9MB ± 1% +6.31% (p=0.008 n=5+5) GoParser 31.7MB ± 0% 33.2MB ± 0% +4.61% (p=0.008 n=5+5) Reflect 78.2MB ± 0% 80.2MB ± 0% +2.53% (p=0.008 n=5+5) Tar 26.6MB ± 0% 27.9MB ± 0% +5.19% (p=0.008 n=5+5) XML 42.4MB ± 0% 44.6MB ± 0% +5.20% (p=0.008 n=5+5) name old allocs/op new allocs/op delta Template 380k ± 0% 379k ± 0% -0.39% (p=0.032 n=5+5) Unicode 321k ± 0% 321k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.14M ± 0% 1.14M ± 0% ~ (p=0.421 n=5+5) Compiler 4.12M ± 0% 4.14M ± 0% +0.52% (p=0.008 n=5+5) SSA 9.72M ± 0% 9.76M ± 0% +0.37% (p=0.008 n=5+5) Flate 234k ± 1% 234k ± 1% ~ (p=0.690 n=5+5) GoParser 316k ± 0% 317k ± 1% ~ (p=0.841 n=5+5) Reflect 981k ± 0% 981k ± 0% ~ (p=1.000 n=5+5) Tar 250k ± 0% 249k ± 1% ~ (p=0.151 n=5+5) XML 393k ± 0% 392k ± 0% ~ (p=0.056 n=5+5) Going beyond c=4 on my machine tends to increase CPU time and allocs without impacting real time. The CPU time numbers matter, because when there are many concurrent compilation processes, that will impact the overall throughput. The numbers above are in many ways the best case scenario; we can take full advantage of all cores. Fortunately, the most common compilation scenario is incremental re-compilation of a single package during a build/test cycle. Updates #15756 Change-Id: I6725558ca2069edec0ac5b0d1683105a9fff6bea Reviewed-on: https://go-review.googlesource.com/40693 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Robert Griesemer <gri@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-19 08:27:26 -07:00
s.f.Cache = &ssaCaches[worker]
cmd/compile: rearrange fields between ssa.Func, ssa.Cache, and ssa.Config This makes ssa.Func, ssa.Cache, and ssa.Config fulfill the roles laid out for them in CL 38160. The only non-trivial change in this CL is how cached values and blocks get IDs. Prior to this CL, their IDs were assigned as part of resetting the cache, and only modified IDs were reset. This required knowing how many values and blocks were modified, which required a tight coupling between ssa.Func and ssa.Config. To eliminate that coupling, we now zero values and blocks during reset, and assign their IDs when they are used. Since unused values and blocks have ID == 0, we can efficiently find the last used value/block, to avoid zeroing everything. Bulk zeroing is efficient, but not efficient enough to obviate the need to avoid zeroing everything every time. As a happy side-effect, ssa.Func.Free is no longer necessary. DebugHashMatch and friends now belong in func.go. They have been left in place for clarity and review. I will move them in a subsequent CL. Passes toolstash -cmp. No compiler performance impact. No change in 'go test cmd/compile/internal/ssa' execution time. Change-Id: I2eb7af58da067ef6a36e815a6f386cfe8634d098 Reviewed-on: https://go-review.googlesource.com/38167 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-15 11:15:13 -07:00
s.f.Cache.Reset()
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
s.f.Name = name
cmd/compile: make GOSSAHASH package-sensitive, also append to log files Turns out if your failure is in a function with a name like "Reset()" there will be a lot of hits on the same hashcode. Adding package sensitivity solves this problem. In additionm, it turned out that in the case that a logfile was specified for the GOSSAHASH logging, that it was opened in create mode, which meant that multiple compiler invocations would reset the file to zero length. Opening in append mode works better; the automated harness (github.com/dr2chase/gossahash) takes care of truncating the file before use. Change-Id: I5601bc280faa94cbd507d302448831849db6c842 Reviewed-on: https://go-review.googlesource.com/c/go/+/246937 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-08-05 10:26:57 -04:00
s.f.DebugTest = s.f.DebugHashMatch("GOSSAHASH")
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
s.f.PrintOrHtmlSSA = printssa
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if fn.Func().Pragma&ir.Nosplit != 0 {
cmd/compile: insert scheduling checks on loop backedges Loop breaking with a counter. Benchmarked (see comments), eyeball checked for sanity on popular loops. This code ought to handle loops in general, and properly inserts phi functions in cases where the earlier version might not have. Includes test, plus modifications to test/run.go to deal with timeout and killing looping test. Tests broken by the addition of extra code (branch frequency and live vars) for added checks turn the check insertion off. If GOEXPERIMENT=preemptibleloops, the compiler inserts reschedule checks on every backedge of every reducible loop. Alternately, specifying GO_GCFLAGS=-d=ssa/insert_resched_checks/on will enable it for a single compilation, but because the core Go libraries contain some loops that may run long, this is less likely to have the desired effect. This is intended as a tool to help in the study and diagnosis of GC and other latency problems, now that goal STW GC latency is on the order of 100 microseconds or less. Updates #17831. Updates #10958. Change-Id: I6206c163a5b0248e3f21eb4fc65f73a179e1f639 Reviewed-on: https://go-review.googlesource.com/33910 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-11-10 16:03:47 -05:00
s.f.NoSplit = true
}
[dev.ssa] cmd/compile: Deduplicate panic{index,slice,divide} calls Panics are only distinguished by their type and line number, so if we can trigger two of those panics in the same line, use the same panic call. For example, in a[i]+b[j] we need only one panicindex call that both bounds checks can use. Change-Id: Ia2b6d3b1a67f2775df05fb72b8a1b149833572b7 Reviewed-on: https://go-review.googlesource.com/16772 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-09 21:35:40 -08:00
s.panics = map[funcLine]*ssa.Block{}
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
s.softFloat = s.config.SoftFloat
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
cmd/compile: define starting block before opening html writer Opening the html writer can fail, and the failure printer wants to use the entry block's line number. So make sure we set up the entry block first. Fixes #40919 Change-Id: I4ffa2839b45a721bbaf04ff84418e8108fa1cc37 Reviewed-on: https://go-review.googlesource.com/c/go/+/249497 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-08-19 23:01:58 -07:00
// Allocate starting block
s.f.Entry = s.f.NewBlock(ssa.BlockPlain)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.f.Entry.Pos = fn.Pos()
cmd/compile: define starting block before opening html writer Opening the html writer can fail, and the failure printer wants to use the entry block's line number. So make sure we set up the entry block first. Fixes #40919 Change-Id: I4ffa2839b45a721bbaf04ff84418e8108fa1cc37 Reviewed-on: https://go-review.googlesource.com/c/go/+/249497 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-08-19 23:01:58 -07:00
cmd/compile: display Go code for a function in ssa.html This CL adds the "sources" column at the beginning of SSA table. This column displays the source code for the function being passed in the GOSSAFUNC env variable. Also UI was extended so that clicking on particular line will highlight all places this line is referenced. JS code was cleaned and formatted. This CL does not handle inlined functions. See issue 25904. Change-Id: Ic7833a0b05e38795f4cf090f3dc82abf62d97026 Reviewed-on: https://go-review.googlesource.com/119035 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-06-14 18:20:03 +03:00
if printssa {
cmd/compile: allow directory specification for GOSSAFUNC output This was useful for debugging failures occurring during make.bash. The added flush also ensures that any hints in the GOSSAFUNC output are flushed before fatal exit. The environment variable GOSSADIR specifies where the SSA html debugging files should be placed. To avoid collisions, each one is written into the [package].[functionOrMethod].html, where [package] is the filepath separator separated package name, function is the function name, and method is either (*Type).Method, or Type.Method, as appropriate. Directories are created as necessary to make this work. Change-Id: I420927426b618b633bb1ffc51cf0f223b8f6d49c Reviewed-on: https://go-review.googlesource.com/c/go/+/252338 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-31 14:29:58 -04:00
ssaDF := ssaDumpFile
if ssaDir != "" {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
ssaDF = filepath.Join(ssaDir, base.Ctxt.Pkgpath+"."+name+".html")
cmd/compile: allow directory specification for GOSSAFUNC output This was useful for debugging failures occurring during make.bash. The added flush also ensures that any hints in the GOSSAFUNC output are flushed before fatal exit. The environment variable GOSSADIR specifies where the SSA html debugging files should be placed. To avoid collisions, each one is written into the [package].[functionOrMethod].html, where [package] is the filepath separator separated package name, function is the function name, and method is either (*Type).Method, or Type.Method, as appropriate. Directories are created as necessary to make this work. Change-Id: I420927426b618b633bb1ffc51cf0f223b8f6d49c Reviewed-on: https://go-review.googlesource.com/c/go/+/252338 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-31 14:29:58 -04:00
ssaD := filepath.Dir(ssaDF)
os.MkdirAll(ssaD, 0755)
}
s.f.HTMLWriter = ssa.NewHTMLWriter(ssaDF, s.f, ssaDumpCFG)
[dev.ssa] cmd/compile: add HTML SSA printer This is an initial implementation. There are many rough edges and TODOs, which will hopefully be polished out with use. Fixes #12071. Change-Id: I1d6fd5a343063b5200623bceef2c2cfcc885794e Reviewed-on: https://go-review.googlesource.com/13472 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-10 12:15:52 -07:00
// TODO: generate and print a mapping from nodes to values and blocks
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
dumpSourcesColumn(s.f.HTMLWriter, fn)
cmd/compile: display AST IR in ssa.html This change adds a new column, AST IR. That column contains nodes for a function specified in $GOSSAFUNC. Also this CL enables horizontal scrolling of sources and AST columns. Fixes #26662 Change-Id: I3fba39fd998bb05e9c93038e8ec2384c69613b24 Reviewed-on: https://go-review.googlesource.com/126858 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-31 18:13:05 +03:00
s.f.HTMLWriter.WriteAST("AST", astBuf)
[dev.ssa] cmd/compile: add HTML SSA printer This is an initial implementation. There are many rough edges and TODOs, which will hopefully be polished out with use. Fixes #12071. Change-Id: I1d6fd5a343063b5200623bceef2c2cfcc885794e Reviewed-on: https://go-review.googlesource.com/13472 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-10 12:15:52 -07:00
}
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
// Allocate starting values
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
s.labels = map[string]*ssaLabel{}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
s.fwdVars = map[ir.Node]*ssa.Value{}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
s.startmem = s.entryNewValue0(ssa.OpInitMem, types.TypeMem)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.hasOpenDefers = base.Flag.N == 0 && s.hasdefer && !s.curfn.Func().OpenCodedDeferDisallowed()
cmd/compile: disable open-coded defers on riscv64 Open-coded defers are currently broken on riscv64 - disable them for the time being. All of the standard package tests now pass on linux/riscv64. Updates issue #27532 and #36786 Change-Id: I20fc25ce91dfad48be32409ba5c64ca9a6acef1d Reviewed-on: https://go-review.googlesource.com/c/go/+/216517 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Dan Scales <danscales@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-01-27 09:32:52 +11:00
switch {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
case s.hasOpenDefers && (base.Ctxt.Flag_shared || base.Ctxt.Flag_dynlink) && thearch.LinkArch.Name == "386":
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Don't support open-coded defers for 386 ONLY when using shared
// libraries, because there is extra code (added by rewriteToUseGot())
// preceding the deferreturn/ret code that is generated by gencallret()
// that we don't track correctly.
s.hasOpenDefers = false
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if s.hasOpenDefers && s.curfn.Func().Exit.Len() > 0 {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Skip doing open defers if there is any extra exit code (likely
// copying heap-allocated return values or race detection), since
// we will not generate that code in the case of the extra
// deferreturn/ret segment.
s.hasOpenDefers = false
}
if s.hasOpenDefers &&
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.curfn.Func().NumReturns*s.curfn.Func().NumDefers > 15 {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Since we are generating defer calls at every exit for
// open-coded defers, skip doing open-coded defers if there are
// too many returns (especially if there are multiple defers).
// Open-coded defers are most important for improving performance
// for smaller functions (which don't have many returns).
s.hasOpenDefers = false
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.sp = s.entryNewValue0(ssa.OpSP, types.Types[types.TUINTPTR]) // TODO: use generic pointer type (unsafe.Pointer?) instead
s.sb = s.entryNewValue0(ssa.OpSB, types.Types[types.TUINTPTR])
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile: addressed vars and closures Cleaned up first-block-in-function code. Added cases for |PHEAP for PPARAM and PAUTO. Made PPARAMOUT act more like PAUTO for purposes of address generation and vardef placement. Added cases for OCLOSUREVAR and Ops for getting closure pointer. Closure ops are scheduled at top of entry block to capture DX. Wrote test that seems to show proper behavior for addressed parameters, locals, and returns. Change-Id: Iee93ebf9e3d9f74cfb4d1c1da8038eb278d8a857 Reviewed-on: https://go-review.googlesource.com/14650 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-09-11 16:40:05 -04:00
s.startBlock(s.f.Entry)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.startmem
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if s.hasOpenDefers {
// Create the deferBits variable and stack slot. deferBits is a
// bitmask showing which of the open-coded defers in this function
// have been activated.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
deferBitsTemp := tempAt(src.NoXPos, s.curfn, types.Types[types.TUINT8])
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
s.deferBitsTemp = deferBitsTemp
// For this value, AuxInt is initialized to zero by default
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
startDeferBits := s.entryNewValue0(ssa.OpConst8, types.Types[types.TUINT8])
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[deferBitsVar] = startDeferBits
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
s.deferBitsAddr = s.addr(deferBitsTemp)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINT8], s.deferBitsAddr, startDeferBits)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Make sure that the deferBits stack slot is kept alive (for use
// by panics) and stores to deferBits are not eliminated, even if
// all checking code on deferBits in the function exit can be
// eliminated, because the defer statements were all
// unconditional.
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarLive, types.TypeMem, deferBitsTemp, s.mem(), false)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
[dev.ssa] cmd/compile: addressed vars and closures Cleaned up first-block-in-function code. Added cases for |PHEAP for PPARAM and PAUTO. Made PPARAMOUT act more like PAUTO for purposes of address generation and vardef placement. Added cases for OCLOSUREVAR and Ops for getting closure pointer. Closure ops are scheduled at top of entry block to capture DX. Wrote test that seems to show proper behavior for addressed parameters, locals, and returns. Change-Id: Iee93ebf9e3d9f74cfb4d1c1da8038eb278d8a857 Reviewed-on: https://go-review.googlesource.com/14650 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-09-11 16:40:05 -04:00
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
// Generate addresses of local declarations
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
s.decladdrs = map[ir.Node]*ssa.Value{}
cmd/compile: delay expansion of OpArg until expand_calls As it says, delay expanpsion of OpArg to the expand_calls phase, to enable (eventually) interprocedural SSA optimizations, and (sooner) change to a register ABI. Includes a round of cleanup to function names and comments, largely to match the expanded scope of the functions. This CL removes the per-function dependence on GOSSAHASH, but the go116lateCallExpansion kill switch remains (and was tested locally to ensure it worked). Two functions in expand_calls.go that performed overlapping things were combined into a single function that is called twice. Fixes #42236. For #40724. Change-Id: Icbb78947eaa39f17f2c1210d5c2caef20abd6571 Reviewed-on: https://go-review.googlesource.com/c/go/+/262117 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-13 19:24:04 -04:00
var args []ssa.Param
var results []ssa.Param
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, n := range fn.Func().Dcl {
cmd/compile: move Node.Class to flags Put it at position zero, since it is fairly hot. This shrinks gc.Node into a smaller size class on 64 bit systems. name old time/op new time/op delta Template 193ms ± 5% 192ms ± 3% ~ (p=0.353 n=94+93) Unicode 86.1ms ± 5% 85.0ms ± 4% -1.23% (p=0.000 n=95+98) GoTypes 546ms ± 3% 544ms ± 4% -0.40% (p=0.007 n=94+97) Compiler 2.56s ± 3% 2.54s ± 3% -0.67% (p=0.000 n=99+97) SSA 5.13s ± 2% 5.10s ± 3% -0.55% (p=0.000 n=94+98) Flate 122ms ± 6% 121ms ± 4% -0.75% (p=0.002 n=97+95) GoParser 144ms ± 5% 144ms ± 4% ~ (p=0.298 n=98+97) Reflect 348ms ± 4% 349ms ± 4% ~ (p=0.350 n=98+97) Tar 105ms ± 5% 104ms ± 5% ~ (p=0.154 n=96+98) XML 200ms ± 5% 198ms ± 4% -0.71% (p=0.015 n=97+98) [Geo mean] 330ms 328ms -0.52% name old user-time/op new user-time/op delta Template 229ms ±11% 224ms ± 7% -2.16% (p=0.001 n=100+87) Unicode 109ms ± 5% 109ms ± 6% ~ (p=0.897 n=96+91) GoTypes 712ms ± 4% 709ms ± 4% ~ (p=0.085 n=96+98) Compiler 3.41s ± 3% 3.36s ± 3% -1.43% (p=0.000 n=98+98) SSA 7.46s ± 3% 7.31s ± 3% -2.02% (p=0.000 n=100+99) Flate 145ms ± 6% 143ms ± 6% -1.11% (p=0.001 n=99+97) GoParser 177ms ± 5% 176ms ± 5% -0.78% (p=0.018 n=95+95) Reflect 432ms ± 7% 435ms ± 9% ~ (p=0.296 n=100+100) Tar 121ms ± 7% 121ms ± 5% ~ (p=0.072 n=100+95) XML 241ms ± 4% 239ms ± 5% ~ (p=0.085 n=97+99) [Geo mean] 413ms 410ms -0.73% name old alloc/op new alloc/op delta Template 38.4MB ± 0% 37.7MB ± 0% -1.85% (p=0.008 n=5+5) Unicode 30.1MB ± 0% 28.8MB ± 0% -4.09% (p=0.008 n=5+5) GoTypes 112MB ± 0% 110MB ± 0% -1.69% (p=0.008 n=5+5) Compiler 470MB ± 0% 461MB ± 0% -1.91% (p=0.008 n=5+5) SSA 1.13GB ± 0% 1.11GB ± 0% -1.70% (p=0.008 n=5+5) Flate 25.0MB ± 0% 24.6MB ± 0% -1.67% (p=0.008 n=5+5) GoParser 31.6MB ± 0% 31.1MB ± 0% -1.66% (p=0.008 n=5+5) Reflect 77.1MB ± 0% 75.8MB ± 0% -1.69% (p=0.008 n=5+5) Tar 26.3MB ± 0% 25.7MB ± 0% -2.06% (p=0.008 n=5+5) XML 41.9MB ± 0% 41.1MB ± 0% -1.93% (p=0.008 n=5+5) [Geo mean] 73.5MB 72.0MB -2.03% name old allocs/op new allocs/op delta Template 383k ± 0% 383k ± 0% ~ (p=0.690 n=5+5) Unicode 343k ± 0% 343k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=0.310 n=5+5) Compiler 4.43M ± 0% 4.42M ± 0% -0.17% (p=0.008 n=5+5) SSA 9.85M ± 0% 9.85M ± 0% ~ (p=0.310 n=5+5) Flate 236k ± 0% 236k ± 1% ~ (p=0.841 n=5+5) GoParser 320k ± 0% 320k ± 0% ~ (p=0.421 n=5+5) Reflect 988k ± 0% 987k ± 0% ~ (p=0.690 n=5+5) Tar 252k ± 0% 251k ± 0% ~ (p=0.095 n=5+5) XML 399k ± 0% 399k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 740k -0.07% Change-Id: I9e952b58a98e30a12494304db9ce50d0a85e459c Reviewed-on: https://go-review.googlesource.com/41797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Marvin Stenger <marvin.stenger94@gmail.com>
2017-04-25 18:14:12 -07:00
switch n.Class() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PPARAM:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.decladdrs[n] = s.entryNewValue2A(ssa.OpLocalAddr, types.NewPtr(n.Type()), n, s.sp, s.startmem)
args = append(args, ssa.Param{Type: n.Type(), Offset: int32(n.Offset())})
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PPARAMOUT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.decladdrs[n] = s.entryNewValue2A(ssa.OpLocalAddr, types.NewPtr(n.Type()), n, s.sp, s.startmem)
results = append(results, ssa.Param{Type: n.Type(), Offset: int32(n.Offset())})
cmd/compile: delay expansion of OpArg until expand_calls As it says, delay expanpsion of OpArg to the expand_calls phase, to enable (eventually) interprocedural SSA optimizations, and (sooner) change to a register ABI. Includes a round of cleanup to function names and comments, largely to match the expanded scope of the functions. This CL removes the per-function dependence on GOSSAHASH, but the go116lateCallExpansion kill switch remains (and was tested locally to ensure it worked). Two functions in expand_calls.go that performed overlapping things were combined into a single function that is called twice. Fixes #42236. For #40724. Change-Id: Icbb78947eaa39f17f2c1210d5c2caef20abd6571 Reviewed-on: https://go-review.googlesource.com/c/go/+/262117 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-13 19:24:04 -04:00
if s.canSSA(n) {
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// Save ssa-able PPARAMOUT variables so we can
// store them back to the stack at the end of
// the function.
s.returns = append(s.returns, n)
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PAUTO:
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
// processed at each use, to prevent Addr coming
// before the decl.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PAUTOHEAP:
cmd/compile: fix liveness computation for heap-escaped parameters The liveness computation of parameters generally was never correct, but forcing all parameters to be live throughout the function covered up that problem. The new SSA back end is too clever: even though it currently keeps the parameter values live throughout the function, it may find optimizations that mean the current values are not written back to the original parameter stack slots immediately or ever (for example if a parameter is set to nil, SSA constant propagation may replace all later uses of the parameter with a constant nil, eliminating the need to write the nil value back to the stack slot), so the liveness code must now track the actual operations on the stack slots, exposing these problems. One small problem in the handling of arguments is that nodarg can return ONAME PPARAM nodes with adjusted offsets, so that there are actually multiple *Node pointers for the same parameter in the instruction stream. This might be possible to correct, but not in this CL. For now, we fix this by using n.Orig instead of n when considering PPARAM and PPARAMOUT nodes. The major problem in the handling of arguments is general confusion in the liveness code about the meaning of PPARAM|PHEAP and PPARAMOUT|PHEAP nodes, especially as contrasted with PAUTO|PHEAP. The difference between these two is that when a local variable "moves" to the heap, it's really just allocated there to start with; in contrast, when an argument moves to the heap, the actual data has to be copied there from the stack at the beginning of the function, and when a result "moves" to the heap the value in the heap has to be copied back to the stack when the function returns This general confusion is also present in the SSA back end. The PHEAP bit worked decently when I first introduced it 7 years ago (!) in 391425ae. The back end did nothing sophisticated, and in particular there was no analysis at all: no escape analysis, no liveness analysis, and certainly no SSA back end. But the complications caused in the various downstream consumers suggest that this should be a detail kept mainly in the front end. This CL therefore eliminates both the PHEAP bit and even the idea of "heap variables" from the back ends. First, it replaces the PPARAM|PHEAP, PPARAMOUT|PHEAP, and PAUTO|PHEAP variable classes with the single PAUTOHEAP, a pseudo-class indicating a variable maintained on the heap and available by indirecting a local variable kept on the stack (a plain PAUTO). Second, walkexpr replaces all references to PAUTOHEAP variables with indirections of the corresponding PAUTO variable. The back ends and the liveness code now just see plain indirected variables. This may actually produce better code, but the real goal here is to eliminate these little-used and somewhat suspect code paths in the back end analyses. The OPARAM node type goes away too. A followup CL will do the same to PPARAMREF. I'm not sure that the back ends (SSA in particular) are handling those right either, and with the framework established in this CL that change is trivial and the result clearly more correct. Fixes #15747. Change-Id: I2770b1ce3cbc93981bfc7166be66a9da12013d74 Reviewed-on: https://go-review.googlesource.com/23393 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-25 01:33:24 -04:00
// moved to heap - already handled by frontend
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PFUNC:
[dev.ssa] cmd/compile/internal/gc: handle local function declarations They are already handled by the frontend, we just need to skip them when we see them in ssa. Change-Id: I309d91552f96a761f8d429a2cab3a47d200ca9e5 Reviewed-on: https://go-review.googlesource.com/14341 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-06 13:42:26 -07:00
// local function - already handled by frontend
[dev.ssa] cmd/compile/internal/gc: mark unimplemented variable classes as such Doesn't fix the build entirely, but does make it get to the race detector tests. Change-Id: Ie986d52374936855b7ee975dc68742306527eb15 Reviewed-on: https://go-review.googlesource.com/11835 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org>
2015-07-01 20:37:25 +01:00
default:
cmd/compile: replace classnames with Class.String Since the slice of names is almost exactly the same as what stringer is already generating for us. Passes toolstash -cmp on std cmd. Change-Id: I3f1e95efc690c0108236689e721627f00f79a461 Reviewed-on: https://go-review.googlesource.com/77190 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Dave Cheney <dave@cheney.net>
2017-11-10 18:35:30 +00:00
s.Fatalf("local variable with class %v unimplemented", n.Class())
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
}
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
cmd/compile/internal/gc: skip useless loads for non-SSA params Change-Id: I78ca43a0f0a6a162a2ade1352e2facb29432d4ac Reviewed-on: https://go-review.googlesource.com/37102 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-15 13:12:53 -08:00
// Populate SSAable arguments.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, n := range fn.Func().Dcl {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.PPARAM && s.canSSA(n) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := s.newValue0A(ssa.OpArg, n.Type(), n)
cmd/compile: attach slots to incoming params for better debugging This change attaches a slots to the OpArg values for incoming params, and this in turn causes location lists to be generated for params, and that yields better debugging, in delve and sometimes in gdb. The parameter lifetimes could start earlier; they are in fact defined on entry, not at the point where the OpArg is finally mentioned. (that will be addressed in another CL) Change-Id: Icca891e118291d260c35a14acd5bc92bb82d9e9f Reviewed-on: https://go-review.googlesource.com/c/141697 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-11 17:48:33 -04:00
s.vars[n] = v
s.addNamedValue(n, v) // This helps with debugging information, not needed for compilation itself.
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
}
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// Convert the AST-based IR to the SSA-based IR
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(fn.Func().Enter)
s.stmtList(fn.Body())
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
// fallthrough to exit
[dev.ssa] cmd/compile/internal/ssa: handle returns correctly Make sure that return blocks take a store as their control. Without this, code was getting inserted between the return and exit blocks. Use AEND to mark the end of code. The live variable analysis gets confused when routines end like: JMP earlier RET because the RET is unreachable. The RET was incorrectly added to the last basic block, rendering the JMP invisible to the CFG builder. Change-Id: I91b32c8b37075347243ff039b4e4385856fba7cd Reviewed-on: https://go-review.googlesource.com/14398 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-08 16:04:37 -07:00
if s.curBlock != nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.pushLine(fn.Func().Endlineno)
cmd/compile: fix defer/deferreturn Make sure we do any just-before-return cleanup on all paths out of a function, including when recovering. Each exit path should include deferreturn (if there are any defers) and then the exit code (e.g. copying heap-escaping return values back to the stack). Introduce a Defer SSA block type which has two outgoing edges - one the fallthrough edge (the defer was queued successfully) and one which immediately returns (the defer had a successful recover() call and normal execution should resume at the return point). Fixes #14725 Change-Id: Iad035c9fd25ef8b7a74dafbd7461cf04833d981f Reviewed-on: https://go-review.googlesource.com/20486 Reviewed-by: David Chase <drchase@google.com>
2016-03-09 19:27:57 -08:00
s.exit()
s.popLine()
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
for _, b := range s.f.Blocks {
if b.Pos != src.NoXPos {
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
s.updateUnsetPredPos(b)
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
}
}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
s.insertPhis()
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
Revert "[dev.ssa] cmd/compile: don't Compile if Unimplemented" This reverts commit 766bcc92a5b693f336deffc347be52fe68af884a. Change-Id: I55413c1aa80d82c856a3ea89b4ffccf80fb58013 Reviewed-on: https://go-review.googlesource.com/12361 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-17 16:47:43 +00:00
// Main call to ssa package to compile function
ssa.Compile(s.f)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if s.hasOpenDefers {
s.emitOpenDeferInfo()
}
[dev.ssa] cmd/compile: change ssa compilation trigger We used to compile everything with SSA and then decide whether to use the result or not. It was useful when we were working on coverage without much regard for correctness, but not so much now. Instead, let's decide what we're going to compile and go through the SSA compiler for only those functions. TODO: next CL: get rid of all the UnimplementedF stuff. Change-Id: If629addd8b62cd38ef553fd5d835114137885ce0 Reviewed-on: https://go-review.googlesource.com/17763 Reviewed-by: David Chase <drchase@google.com>
2015-12-11 20:41:52 -08:00
return s.f
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func dumpSourcesColumn(writer *ssa.HTMLWriter, fn ir.Node) {
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
// Read sources of target function fn.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
fname := base.Ctxt.PosTable.Pos(fn.Pos()).Filename()
targetFn, err := readFuncLines(fname, fn.Pos().Line(), fn.Func().Endlineno.Line())
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
if err != nil {
cmd/compile: refactor around HTMLWriter removing logger in favor of Func Replace HTMLWriter's Logger field with a *Func. Implement Fatalf method for HTMLWriter which gets the Frontend() from the Func and calls down into it's Fatalf method, passing the msg and args along. Replace remaining calls to the old Logger with calls to logging methods on the Func. Change-Id: I966342ef9997396f3416fb152fa52d60080ebecb Reviewed-on: https://go-review.googlesource.com/c/go/+/227277 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-04-05 12:44:02 -06:00
writer.Logf("cannot read sources for function %v: %v", fn, err)
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
}
// Read sources of inlined functions.
var inlFns []*ssa.FuncLines
for _, fi := range ssaDumpInlined {
var elno src.XPos
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if fi.Name().Defn == nil {
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
// Endlineno is filled from exported data.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
elno = fi.Func().Endlineno
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
elno = fi.Name().Defn.Func().Endlineno
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
fname := base.Ctxt.PosTable.Pos(fi.Pos()).Filename()
fnLines, err := readFuncLines(fname, fi.Pos().Line(), elno.Line())
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
if err != nil {
cmd/compile: refactor around HTMLWriter removing logger in favor of Func Replace HTMLWriter's Logger field with a *Func. Implement Fatalf method for HTMLWriter which gets the Frontend() from the Func and calls down into it's Fatalf method, passing the msg and args along. Replace remaining calls to the old Logger with calls to logging methods on the Func. Change-Id: I966342ef9997396f3416fb152fa52d60080ebecb Reviewed-on: https://go-review.googlesource.com/c/go/+/227277 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-04-05 12:44:02 -06:00
writer.Logf("cannot read sources for inlined function %v: %v", fi, err)
cmd/compile: add sources for inlined functions to ssa.html This CL adds the source code of all inlined functions into the function specified in $GOSSAFUNC. The code is appended to the sources column of ssa.html. ssaDumpInlined is populated with references to inlined functions. Then it is used for dumping the sources in buildssa. The source columns contains code in following order: target function, inlined functions sorted by filename, lineno. Fixes #25904 Change-Id: I4f6d4834376f1efdfda1f968a5335c0543ed36bc Reviewed-on: https://go-review.googlesource.com/126606 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-26 12:51:06 +03:00
continue
}
inlFns = append(inlFns, fnLines)
}
sort.Sort(ssa.ByTopo(inlFns))
if targetFn != nil {
inlFns = append([]*ssa.FuncLines{targetFn}, inlFns...)
}
writer.WriteSources("sources", inlFns)
}
func readFuncLines(file string, start, end uint) (*ssa.FuncLines, error) {
f, err := os.Open(os.ExpandEnv(file))
if err != nil {
return nil, err
}
defer f.Close()
var lines []string
ln := uint(1)
scanner := bufio.NewScanner(f)
for scanner.Scan() && ln <= end {
if ln >= start {
lines = append(lines, scanner.Text())
}
ln++
}
return &ssa.FuncLines{Filename: file, StartLineno: start, Lines: lines}, nil
}
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
// updateUnsetPredPos propagates the earliest-value position information for b
// towards all of b's predecessors that need a position, and recurs on that
// predecessor if its position is updated. B should have a non-empty position.
func (s *state) updateUnsetPredPos(b *ssa.Block) {
if b.Pos == src.NoXPos {
s.Fatalf("Block %s should have a position", b)
}
bestPos := src.NoXPos
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
for _, e := range b.Preds {
p := e.Block()
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
if !p.LackingPos() {
continue
}
if bestPos == src.NoXPos {
bestPos = b.Pos
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
for _, v := range b.Values {
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
if v.LackingPos() {
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
continue
}
if v.Pos != src.NoXPos {
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
// Assume values are still in roughly textual order;
// TODO: could also seek minimum position?
bestPos = v.Pos
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
break
}
}
}
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
p.Pos = bestPos
s.updateUnsetPredPos(p) // We do not expect long chains of these, thus recursion is okay.
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
}
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Information about each open-coded defer.
type openDeferInfo struct {
// The ODEFER node representing the function call of the defer
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
n ir.Node
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// If defer call is closure call, the address of the argtmp where the
// closure is stored.
closure *ssa.Value
// The node representing the argtmp where the closure is stored - used for
// function, method, or interface call, to store a closure that panic
// processing can use for this defer.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
closureNode ir.Node
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// If defer call is interface call, the address of the argtmp where the
// receiver is stored
rcvr *ssa.Value
// The node representing the argtmp where the receiver is stored
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
rcvrNode ir.Node
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// The addresses of the argtmps where the evaluated arguments of the defer
// function call are stored.
argVals []*ssa.Value
// The nodes representing the argtmps where the args of the defer are stored
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
argNodes []ir.Node
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
type state struct {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// configuration (arch) information
config *ssa.Config
// function we're building
f *ssa.Func
cmd/compile: provide pos and curfn to temp Concurrent compilation requires providing an explicit position and curfn to temp. This implementation of tempAt temporarily continues to use the globals lineno and Curfn, so as not to collide with mdempsky's work for #19683 eliminating the Curfn dependency from func nod. Updates #15756 Updates #19683 Change-Id: Ib3149ca4b0740e9f6eea44babc6f34cdd63028a9 Reviewed-on: https://go-review.googlesource.com/38592 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 20:27:54 -07:00
// Node for function
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
curfn ir.Node
cmd/compile: provide pos and curfn to temp Concurrent compilation requires providing an explicit position and curfn to temp. This implementation of tempAt temporarily continues to use the globals lineno and Curfn, so as not to collide with mdempsky's work for #19683 eliminating the Curfn dependency from func nod. Updates #15756 Updates #19683 Change-Id: Ib3149ca4b0740e9f6eea44babc6f34cdd63028a9 Reviewed-on: https://go-review.googlesource.com/38592 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 20:27:54 -07:00
[dev.regabi] cmd/compile: cleanup label handling - The use of a label's Name.Defn to point at the named for/select/switch means that any rewrite of the for/select/switch must overwrite the original or else the pointer will dangle. Remove that pointer by adding the label name directly to the for/select/switch representation instead. - The only uses of a label's Sym.Label were ephemeral values during markbreak and escape analysis. Use a map for each. Although in general we are not going to replace all computed fields with maps (too slow), the one in markbreak is only for labeled for/select/switch, and the one in escape is for all labels, but even so, labels are fairly rare. In theory this cleanup should make it easy to allow labeled for/select/switch in inlined bodies, but this CL does not attempt that. It's only concerned with cleanup to enable a new Node representation. Passes buildall w/ toolstash -cmp. Change-Id: I7e36ee98d2ea40dbae94e6722d585f007b7afcfa Reviewed-on: https://go-review.googlesource.com/c/go/+/274086 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-27 23:52:37 -05:00
// labels in f
labels map[string]*ssaLabel
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// unlabeled break and continue statement tracking
breakTo *ssa.Block // current target for plain break statement
continueTo *ssa.Block // current target for plain continue statement
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// current location where we're interpreting the AST
curBlock *ssa.Block
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
// variable assignments in the current block (map from variable symbol to ssa value)
// *Node is the unique identifier (an ONAME Node) for the variable.
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
// TODO: keep a single varnum map, then make all of these maps slices instead?
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
vars map[ir.Node]*ssa.Value
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
// fwdVars are variables that are used before they are defined in the current block.
// This map exists just to coalesce multiple references into a single FwdRef op.
// *Node is the unique identifier (an ONAME Node) for the variable.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
fwdVars map[ir.Node]*ssa.Value
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// all defined variables at the end of each block. Indexed by block ID.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
defvars []map[ir.Node]*ssa.Value
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
// addresses of PPARAM and PPARAMOUT variables.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
decladdrs map[ir.Node]*ssa.Value
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// starting values. Memory, stack pointer, and globals pointer
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
startmem *ssa.Value
sp *ssa.Value
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
sb *ssa.Value
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// value representing address of where deferBits autotmp is stored
deferBitsAddr *ssa.Value
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
deferBitsTemp ir.Node
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// line number stack. The current line number is top of stack
[dev.inline] cmd/internal/src: introduce compact source position representation XPos is a compact (8 instead of 16 bytes on a 64bit machine) source position representation. There is a 1:1 correspondence between each XPos and each regular Pos, translated via a global table. In some sense this brings back the LineHist, though positions can track line and column information; there is a O(1) translation between the representations (no binary search), and the translation is factored out. The size increase with the prior change is brought down again and the compiler speed is in line with the master repo (measured on the same "quiet" machine as for prior change): name old time/op new time/op delta Template 256ms ± 1% 262ms ± 2% ~ (p=0.063 n=5+4) Unicode 132ms ± 1% 135ms ± 2% ~ (p=0.063 n=5+4) GoTypes 891ms ± 1% 871ms ± 1% -2.28% (p=0.016 n=5+4) Compiler 3.84s ± 2% 3.89s ± 2% ~ (p=0.413 n=5+4) MakeBash 47.1s ± 1% 46.2s ± 2% ~ (p=0.095 n=5+5) name old user-ns/op new user-ns/op delta Template 309M ± 1% 314M ± 2% ~ (p=0.111 n=5+4) Unicode 165M ± 1% 172M ± 9% ~ (p=0.151 n=5+5) GoTypes 1.14G ± 2% 1.12G ± 1% ~ (p=0.063 n=5+4) Compiler 5.00G ± 1% 4.96G ± 1% ~ (p=0.286 n=5+4) Change-Id: Icc570cc60ab014d8d9af6976f1f961ab8828cc47 Reviewed-on: https://go-review.googlesource.com/34506 Run-TryBot: Robert Griesemer <gri@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-12-15 17:17:01 -08:00
line []src.XPos
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
// the last line number processed; it may have been popped
lastPos src.XPos
[dev.ssa] cmd/compile: Deduplicate panic{index,slice,divide} calls Panics are only distinguished by their type and line number, so if we can trigger two of those panics in the same line, use the same panic call. For example, in a[i]+b[j] we need only one panicindex call that both bounds checks can use. Change-Id: Ia2b6d3b1a67f2775df05fb72b8a1b149833572b7 Reviewed-on: https://go-review.googlesource.com/16772 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-09 21:35:40 -08:00
// list of panic calls by function name and line number.
// Used to deduplicate panic calls.
panics map[funcLine]*ssa.Block
[dev.ssa] cmd/compile: optimize phi ops Redo how we keep track of forward references when building SSA. When the forward reference is resolved, update the Value node in place. Improve the phi elimination pass so it can simplify phis of phis. Give SSA package access to decoded line numbers. Fix line numbers for constant booleans. Change-Id: I3dc9896148d260be2f3dd14cbe5db639ec9fa6b7 Reviewed-on: https://go-review.googlesource.com/18674 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-01-14 16:02:23 -08:00
cmd/compile: fix liveness computation for heap-escaped parameters The liveness computation of parameters generally was never correct, but forcing all parameters to be live throughout the function covered up that problem. The new SSA back end is too clever: even though it currently keeps the parameter values live throughout the function, it may find optimizations that mean the current values are not written back to the original parameter stack slots immediately or ever (for example if a parameter is set to nil, SSA constant propagation may replace all later uses of the parameter with a constant nil, eliminating the need to write the nil value back to the stack slot), so the liveness code must now track the actual operations on the stack slots, exposing these problems. One small problem in the handling of arguments is that nodarg can return ONAME PPARAM nodes with adjusted offsets, so that there are actually multiple *Node pointers for the same parameter in the instruction stream. This might be possible to correct, but not in this CL. For now, we fix this by using n.Orig instead of n when considering PPARAM and PPARAMOUT nodes. The major problem in the handling of arguments is general confusion in the liveness code about the meaning of PPARAM|PHEAP and PPARAMOUT|PHEAP nodes, especially as contrasted with PAUTO|PHEAP. The difference between these two is that when a local variable "moves" to the heap, it's really just allocated there to start with; in contrast, when an argument moves to the heap, the actual data has to be copied there from the stack at the beginning of the function, and when a result "moves" to the heap the value in the heap has to be copied back to the stack when the function returns This general confusion is also present in the SSA back end. The PHEAP bit worked decently when I first introduced it 7 years ago (!) in 391425ae. The back end did nothing sophisticated, and in particular there was no analysis at all: no escape analysis, no liveness analysis, and certainly no SSA back end. But the complications caused in the various downstream consumers suggest that this should be a detail kept mainly in the front end. This CL therefore eliminates both the PHEAP bit and even the idea of "heap variables" from the back ends. First, it replaces the PPARAM|PHEAP, PPARAMOUT|PHEAP, and PAUTO|PHEAP variable classes with the single PAUTOHEAP, a pseudo-class indicating a variable maintained on the heap and available by indirecting a local variable kept on the stack (a plain PAUTO). Second, walkexpr replaces all references to PAUTOHEAP variables with indirections of the corresponding PAUTO variable. The back ends and the liveness code now just see plain indirected variables. This may actually produce better code, but the real goal here is to eliminate these little-used and somewhat suspect code paths in the back end analyses. The OPARAM node type goes away too. A followup CL will do the same to PPARAMREF. I'm not sure that the back ends (SSA in particular) are handling those right either, and with the framework established in this CL that change is trivial and the result clearly more correct. Fixes #15747. Change-Id: I2770b1ce3cbc93981bfc7166be66a9da12013d74 Reviewed-on: https://go-review.googlesource.com/23393 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-25 01:33:24 -04:00
// list of PPARAMOUT (return) variables.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
returns []ir.Node
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
cgoUnsafeArgs bool
cmd/compile: move hasdefer to Func Passes toolstash -cmp. Updates #15756 Change-Id: Ia071dbbd7f2ee0f8433d8c37af4f7b588016244e Reviewed-on: https://go-review.googlesource.com/38231 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-15 22:55:21 -07:00
hasdefer bool // whether the function contains a defer statement
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
softFloat bool
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
hasOpenDefers bool // whether we are doing open-coded defers
// If doing open-coded defers, list of info about the defer calls in
// scanning order. Hence, at exit we should run these defers in reverse
// order of this list
openDefers []*openDeferInfo
// For open-coded defers, this is the beginning and end blocks of the last
// defer exit code that we have generated so far. We use these to share
// code between exits if the shareDeferExits option (disabled by default)
// is on.
lastDeferExit *ssa.Block // Entry block of last defer exit code we generated
lastDeferFinalBlock *ssa.Block // Final block of last defer exit code we generated
lastDeferCount int // Number of defers encountered at that point
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
prevCall *ssa.Value // the previous call; use this to tie results to the call op.
[dev.ssa] cmd/compile: Deduplicate panic{index,slice,divide} calls Panics are only distinguished by their type and line number, so if we can trigger two of those panics in the same line, use the same panic call. For example, in a[i]+b[j] we need only one panicindex call that both bounds checks can use. Change-Id: Ia2b6d3b1a67f2775df05fb72b8a1b149833572b7 Reviewed-on: https://go-review.googlesource.com/16772 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-09 21:35:40 -08:00
}
type funcLine struct {
cmd/compile/internal/gc: stop exporting *gc.Sym-typed globals The arch-specific SSA backends now no longer use gc.Sym either. Passes toolstash -cmp. Change-Id: Ic13b934b92a1b89b4b79c6c4796ab0a137608163 Reviewed-on: https://go-review.googlesource.com/36416 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-02-06 13:40:19 -08:00
f *obj.LSym
cmd/compile: fix merge rules for panic calls Use entire inlining call stack to decide whether two panic calls can be merged. We used to merge panic calls when only the leaf line numbers matched, but that leads to places higher up the call stack being merged incorrectly. Fixes #22083 Change-Id: Ia41400a80de4b6ecf3e5089abce0c42b65e9b38a Reviewed-on: https://go-review.googlesource.com/67632 Run-TryBot: Emmanuel Odeke <emm.odeke@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-10-02 15:47:41 -07:00
base *src.PosBase
cmd/compile: restore panic deduplication The switch to detailed position information broke the removal of duplicate panics on the same line. Restore it. Neutral compiler performance impact: name old alloc/op new alloc/op delta Template 38.8MB ± 0% 38.8MB ± 0% ~ (p=0.690 n=5+5) Unicode 28.7MB ± 0% 28.7MB ± 0% +0.13% (p=0.032 n=5+5) GoTypes 109MB ± 0% 109MB ± 0% ~ (p=1.000 n=5+5) Compiler 457MB ± 0% 457MB ± 0% ~ (p=0.151 n=5+5) SSA 1.09GB ± 0% 1.10GB ± 0% +0.17% (p=0.008 n=5+5) Flate 24.6MB ± 0% 24.5MB ± 0% -0.35% (p=0.008 n=5+5) GoParser 30.9MB ± 0% 31.0MB ± 0% ~ (p=0.421 n=5+5) Reflect 73.4MB ± 0% 73.4MB ± 0% ~ (p=0.056 n=5+5) Tar 25.6MB ± 0% 25.5MB ± 0% -0.61% (p=0.008 n=5+5) XML 40.9MB ± 0% 40.9MB ± 0% ~ (p=0.841 n=5+5) [Geo mean] 71.6MB 71.6MB -0.07% name old allocs/op new allocs/op delta Template 394k ± 0% 395k ± 1% ~ (p=0.151 n=5+5) Unicode 343k ± 0% 344k ± 0% +0.38% (p=0.032 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=1.000 n=5+5) Compiler 4.41M ± 0% 4.42M ± 0% ~ (p=0.151 n=5+5) SSA 9.79M ± 0% 9.79M ± 0% ~ (p=0.690 n=5+5) Flate 238k ± 1% 238k ± 0% ~ (p=0.151 n=5+5) GoParser 321k ± 0% 321k ± 1% ~ (p=0.548 n=5+5) Reflect 958k ± 0% 957k ± 0% ~ (p=0.841 n=5+5) Tar 252k ± 0% 252k ± 1% ~ (p=0.151 n=5+5) XML 401k ± 0% 400k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 742k +0.08% Reduces object files a little bit: name old object-bytes new object-bytes delta Template 386k ± 0% 386k ± 0% -0.04% (p=0.008 n=5+5) Unicode 202k ± 0% 202k ± 0% ~ (all equal) GoTypes 1.16M ± 0% 1.16M ± 0% -0.04% (p=0.008 n=5+5) Compiler 3.91M ± 0% 3.91M ± 0% -0.08% (p=0.008 n=5+5) SSA 7.91M ± 0% 7.91M ± 0% -0.04% (p=0.008 n=5+5) Flate 228k ± 0% 227k ± 0% -0.28% (p=0.008 n=5+5) GoParser 283k ± 0% 283k ± 0% -0.01% (p=0.008 n=5+5) Reflect 952k ± 0% 951k ± 0% -0.03% (p=0.008 n=5+5) Tar 188k ± 0% 187k ± 0% -0.09% (p=0.008 n=5+5) XML 406k ± 0% 406k ± 0% -0.04% (p=0.008 n=5+5) [Geo mean] 648k 648k -0.06% This was discovered in the context for the Fannkuch benchmark. It shrinks the number of panicindex calls in that function from 13 back to 9, their 1.8.1 level. It shrinks the function text a bit, from 829 to 801 bytes. It slows down execution a little, presumably due to alignment (?). name old time/op new time/op delta Fannkuch11-8 2.68s ± 2% 2.74s ± 1% +2.09% (p=0.000 n=19+20) After this CL, 1.8.1 and tip are identical: name old time/op new time/op delta Fannkuch11-8 2.74s ± 2% 2.74s ± 1% ~ (p=0.301 n=20+20) Fixes #20332 Change-Id: I2aeacc3e8cf2ac1ff10f36c572a27856f4f8f7c9 Reviewed-on: https://go-review.googlesource.com/43291 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-05-11 11:41:02 -07:00
line uint
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
type ssaLabel struct {
target *ssa.Block // block identified by this label
breakTarget *ssa.Block // block to break to in control flow node identified by this label
continueTarget *ssa.Block // block to continue to in control flow node identified by this label
}
// label returns the label associated with sym, creating it if necessary.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) label(sym *types.Sym) *ssaLabel {
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab := s.labels[sym.Name]
if lab == nil {
lab = new(ssaLabel)
s.labels[sym.Name] = lab
}
return lab
}
cmd/compile: move Frontend field from ssa.Config to ssa.Func Suggested by mdempsky in CL 38232. This allows us to use the Frontend field to associate frontend state and information with a function. See the following CL in the series for examples. This is a giant CL, but it is almost entirely routine refactoring. The ssa test API is starting to feel a bit unwieldy. I will clean it up separately, once the dust has settled. Passes toolstash -cmp. Updates #15756 Change-Id: I71c573bd96ff7251935fce1391b06b1f133c3caf Reviewed-on: https://go-review.googlesource.com/38327 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-16 22:42:10 -07:00
func (s *state) Logf(msg string, args ...interface{}) { s.f.Logf(msg, args...) }
func (s *state) Log() bool { return s.f.Log() }
func (s *state) Fatalf(msg string, args ...interface{}) {
s.f.Frontend().Fatalf(s.peekPos(), msg, args...)
[dev.inline] cmd/compile: introduce cmd/internal/src.Pos type for line numbers This is a step toward chosing a different position representation. By introducing an explicit type, it will be easier to make the transition step-wise while ensuring everything keeps running. This has been reviewed via https://go-review.googlesource.com/#/c/34025/. Change-Id: Ibceddcd62d8f346321ac3250e3940e9c436ed684 Reviewed-on: https://go-review.googlesource.com/34132 Run-TryBot: Robert Griesemer <gri@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Lazar <lazard@golang.org>
2016-12-06 17:08:06 -08:00
}
cmd/compile: move Frontend field from ssa.Config to ssa.Func Suggested by mdempsky in CL 38232. This allows us to use the Frontend field to associate frontend state and information with a function. See the following CL in the series for examples. This is a giant CL, but it is almost entirely routine refactoring. The ssa test API is starting to feel a bit unwieldy. I will clean it up separately, once the dust has settled. Passes toolstash -cmp. Updates #15756 Change-Id: I71c573bd96ff7251935fce1391b06b1f133c3caf Reviewed-on: https://go-review.googlesource.com/38327 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-16 22:42:10 -07:00
func (s *state) Warnl(pos src.XPos, msg string, args ...interface{}) { s.f.Warnl(pos, msg, args...) }
func (s *state) Debug_checknil() bool { return s.f.Frontend().Debug_checknil() }
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func ssaMarker(name string) ir.Node {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return NewName(&types.Sym{Name: name})
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
}
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
var (
[dev.regabi] cmd/compile: remove uses of dummy Per https://developers.google.com/style/inclusive-documentation, since we are editing some of this code anyway and it is easier to put the cleanup in a separate CL. Change-Id: Ib6b851f43f9cc0a57676564477d4ff22abb1cee5 Reviewed-on: https://go-review.googlesource.com/c/go/+/273106 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-24 22:09:57 -05:00
// marker node for the memory variable
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
memVar = ssaMarker("mem")
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
[dev.regabi] cmd/compile: remove uses of dummy Per https://developers.google.com/style/inclusive-documentation, since we are editing some of this code anyway and it is easier to put the cleanup in a separate CL. Change-Id: Ib6b851f43f9cc0a57676564477d4ff22abb1cee5 Reviewed-on: https://go-review.googlesource.com/c/go/+/273106 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-24 22:09:57 -05:00
// marker nodes for temporary variables
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
ptrVar = ssaMarker("ptr")
lenVar = ssaMarker("len")
newlenVar = ssaMarker("newlen")
capVar = ssaMarker("cap")
typVar = ssaMarker("typ")
okVar = ssaMarker("ok")
deferBitsVar = ssaMarker("deferBits")
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// startBlock sets the current block we're generating code in to b.
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
func (s *state) startBlock(b *ssa.Block) {
if s.curBlock != nil {
[dev.ssa] cmd/compile/ssa: add -f suffix to logging methods Requested in CL 11380. Change-Id: Icf0d23fb8d383c76272401e363cc9b2169d11403 Reviewed-on: https://go-review.googlesource.com/11450 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-06-24 14:03:39 -07:00
s.Fatalf("starting block %v when block %v has not ended", b, s.curBlock)
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
s.curBlock = b
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
s.vars = map[ir.Node]*ssa.Value{}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
for n := range s.fwdVars {
delete(s.fwdVars, n)
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
// endBlock marks the end of generating code for the current block.
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// Returns the (former) current block. Returns nil if there is no current
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// block, i.e. if no code flows to the current execution point.
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
func (s *state) endBlock() *ssa.Block {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
b := s.curBlock
if b == nil {
return nil
}
for len(s.defvars) <= int(b.ID) {
s.defvars = append(s.defvars, nil)
}
s.defvars[b.ID] = s.vars
s.curBlock = nil
s.vars = nil
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
if b.LackingPos() {
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
// Empty plain blocks get the line of their successor (handled after all blocks created),
// except for increment blocks in For statements (handled in ssa conversion of OFOR),
// and for blocks ending in GOTO/BREAK/CONTINUE.
b.Pos = src.NoXPos
} else {
b.Pos = s.lastPos
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
return b
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
// pushLine pushes a line number on the line number stack.
[dev.inline] cmd/internal/src: introduce compact source position representation XPos is a compact (8 instead of 16 bytes on a 64bit machine) source position representation. There is a 1:1 correspondence between each XPos and each regular Pos, translated via a global table. In some sense this brings back the LineHist, though positions can track line and column information; there is a O(1) translation between the representations (no binary search), and the translation is factored out. The size increase with the prior change is brought down again and the compiler speed is in line with the master repo (measured on the same "quiet" machine as for prior change): name old time/op new time/op delta Template 256ms ± 1% 262ms ± 2% ~ (p=0.063 n=5+4) Unicode 132ms ± 1% 135ms ± 2% ~ (p=0.063 n=5+4) GoTypes 891ms ± 1% 871ms ± 1% -2.28% (p=0.016 n=5+4) Compiler 3.84s ± 2% 3.89s ± 2% ~ (p=0.413 n=5+4) MakeBash 47.1s ± 1% 46.2s ± 2% ~ (p=0.095 n=5+5) name old user-ns/op new user-ns/op delta Template 309M ± 1% 314M ± 2% ~ (p=0.111 n=5+4) Unicode 165M ± 1% 172M ± 9% ~ (p=0.151 n=5+5) GoTypes 1.14G ± 2% 1.12G ± 1% ~ (p=0.063 n=5+4) Compiler 5.00G ± 1% 4.96G ± 1% ~ (p=0.286 n=5+4) Change-Id: Icc570cc60ab014d8d9af6976f1f961ab8828cc47 Reviewed-on: https://go-review.googlesource.com/34506 Run-TryBot: Robert Griesemer <gri@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-12-15 17:17:01 -08:00
func (s *state) pushLine(line src.XPos) {
[dev.inline] cmd/internal/src: make Pos implementation abstract Adjust cmd/compile accordingly. This will make it easier to replace the underlying implementation. Change-Id: I33645850bb18c839b24785b6222a9e028617addb Reviewed-on: https://go-review.googlesource.com/34133 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 16:02:42 -08:00
if !line.IsKnown() {
cmd/compile: don't set line number to 0 when building SSA The frontend may emit node with line number missing. In this case, use the parent line number. Instead of changing every call site of pushLine, do it in pushLine itself. Fixes #16214. Change-Id: I80390550b56e4d690fc770b01ff725b892ffd6dc Reviewed-on: https://go-review.googlesource.com/24641 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-06-30 06:36:31 -04:00
// the frontend may emit node with line number missing,
// use the parent line number in this case.
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
line = s.peekPos()
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.K != 0 {
base.Warn("buildssa: unknown position (line 0)")
cmd/compile: don't set line number to 0 when building SSA The frontend may emit node with line number missing. In this case, use the parent line number. Instead of changing every call site of pushLine, do it in pushLine itself. Fixes #16214. Change-Id: I80390550b56e4d690fc770b01ff725b892ffd6dc Reviewed-on: https://go-review.googlesource.com/24641 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-06-30 06:36:31 -04:00
}
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
} else {
s.lastPos = line
cmd/compile: don't set line number to 0 when building SSA The frontend may emit node with line number missing. In this case, use the parent line number. Instead of changing every call site of pushLine, do it in pushLine itself. Fixes #16214. Change-Id: I80390550b56e4d690fc770b01ff725b892ffd6dc Reviewed-on: https://go-review.googlesource.com/24641 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-06-30 06:36:31 -04:00
}
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
s.line = append(s.line, line)
}
// popLine pops the top of the line number stack.
func (s *state) popLine() {
s.line = s.line[:len(s.line)-1]
}
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
// peekPos peeks the top of the line number stack.
[dev.inline] cmd/internal/src: introduce compact source position representation XPos is a compact (8 instead of 16 bytes on a 64bit machine) source position representation. There is a 1:1 correspondence between each XPos and each regular Pos, translated via a global table. In some sense this brings back the LineHist, though positions can track line and column information; there is a O(1) translation between the representations (no binary search), and the translation is factored out. The size increase with the prior change is brought down again and the compiler speed is in line with the master repo (measured on the same "quiet" machine as for prior change): name old time/op new time/op delta Template 256ms ± 1% 262ms ± 2% ~ (p=0.063 n=5+4) Unicode 132ms ± 1% 135ms ± 2% ~ (p=0.063 n=5+4) GoTypes 891ms ± 1% 871ms ± 1% -2.28% (p=0.016 n=5+4) Compiler 3.84s ± 2% 3.89s ± 2% ~ (p=0.413 n=5+4) MakeBash 47.1s ± 1% 46.2s ± 2% ~ (p=0.095 n=5+5) name old user-ns/op new user-ns/op delta Template 309M ± 1% 314M ± 2% ~ (p=0.111 n=5+4) Unicode 165M ± 1% 172M ± 9% ~ (p=0.151 n=5+5) GoTypes 1.14G ± 2% 1.12G ± 1% ~ (p=0.063 n=5+4) Compiler 5.00G ± 1% 4.96G ± 1% ~ (p=0.286 n=5+4) Change-Id: Icc570cc60ab014d8d9af6976f1f961ab8828cc47 Reviewed-on: https://go-review.googlesource.com/34506 Run-TryBot: Robert Griesemer <gri@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-12-15 17:17:01 -08:00
func (s *state) peekPos() src.XPos {
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
return s.line[len(s.line)-1]
}
[dev.ssa] cmd/compiler/internal/ssa: Add auxint field Add an additional int64 auxiliary field to Value. There are two main reasons for doing this: 1) Ints in interfaces require allocation, and we store ints in Aux a lot. 2) I'd like to have both *gc.Sym and int offsets included in lots of operations (e.g. MOVQloadidx8). It will be more efficient to store them as separate fields instead of a pointer to a sym/int pair. It also simplifies a bunch of code. This is just the refactoring. I'll start using this some more in a subsequent changelist. Change-Id: I1ca797ff572553986cf90cab3ac0a0c1d01ad241 Reviewed-on: https://go-review.googlesource.com/10929 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-11 21:29:25 -07:00
// newValue0 adds a new value with no arguments to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue0(op ssa.Op, t *types.Type) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue0(s.peekPos(), op, t)
[dev.ssa] cmd/compiler/internal/ssa: Add auxint field Add an additional int64 auxiliary field to Value. There are two main reasons for doing this: 1) Ints in interfaces require allocation, and we store ints in Aux a lot. 2) I'd like to have both *gc.Sym and int offsets included in lots of operations (e.g. MOVQloadidx8). It will be more efficient to store them as separate fields instead of a pointer to a sym/int pair. It also simplifies a bunch of code. This is just the refactoring. I'll start using this some more in a subsequent changelist. Change-Id: I1ca797ff572553986cf90cab3ac0a0c1d01ad241 Reviewed-on: https://go-review.googlesource.com/10929 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-11 21:29:25 -07:00
}
// newValue0A adds a new value with no arguments and an aux value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue0A(op ssa.Op, t *types.Type, aux interface{}) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue0A(s.peekPos(), op, t, aux)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
[dev.ssa] cmd/compile: store bools in AuxInt Store bools in AuxInt to reduce allocations. Change-Id: Ibd26db67fca5e1e2803f53d7ef094897968b704b Reviewed-on: https://go-review.googlesource.com/14276 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-03 18:24:22 -05:00
// newValue0I adds a new value with no arguments and an auxint value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue0I(op ssa.Op, t *types.Type, auxint int64) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue0I(s.peekPos(), op, t, auxint)
[dev.ssa] cmd/compile: store bools in AuxInt Store bools in AuxInt to reduce allocations. Change-Id: Ibd26db67fca5e1e2803f53d7ef094897968b704b Reviewed-on: https://go-review.googlesource.com/14276 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-03 18:24:22 -05:00
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
// newValue1 adds a new value with one argument to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue1(op ssa.Op, t *types.Type, arg *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue1(s.peekPos(), op, t, arg)
[dev.ssa] cmd/compiler/internal/ssa: Add auxint field Add an additional int64 auxiliary field to Value. There are two main reasons for doing this: 1) Ints in interfaces require allocation, and we store ints in Aux a lot. 2) I'd like to have both *gc.Sym and int offsets included in lots of operations (e.g. MOVQloadidx8). It will be more efficient to store them as separate fields instead of a pointer to a sym/int pair. It also simplifies a bunch of code. This is just the refactoring. I'll start using this some more in a subsequent changelist. Change-Id: I1ca797ff572553986cf90cab3ac0a0c1d01ad241 Reviewed-on: https://go-review.googlesource.com/10929 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-11 21:29:25 -07:00
}
// newValue1A adds a new value with one argument and an aux value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue1A(op ssa.Op, t *types.Type, aux interface{}, arg *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue1A(s.peekPos(), op, t, aux, arg)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
cmd/compile: adjust is-statement on Pos's to improve debugging Stores to auto tmp variables can be hoisted to places where the line numbers make debugging look "jumpy". Turning those instructions into ones with is_stmt = 0 in the DWARF (accomplished by marking ssa nodes with NotStmt) makes debugging look better while still attributing the instructions with the correct line number. The same is true for certain register allocator spills and reloads. Change-Id: I97a394eb522d4911cc40b4bf5bf76d3d7221f6c0 Reviewed-on: https://go-review.googlesource.com/98415 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-02 20:33:15 -05:00
// newValue1Apos adds a new value with one argument and an aux value to the current block.
// isStmt determines whether the created values may be a statement or not
// (i.e., false means never, yes means maybe).
func (s *state) newValue1Apos(op ssa.Op, t *types.Type, aux interface{}, arg *ssa.Value, isStmt bool) *ssa.Value {
if isStmt {
return s.curBlock.NewValue1A(s.peekPos(), op, t, aux, arg)
}
return s.curBlock.NewValue1A(s.peekPos().WithNotStmt(), op, t, aux, arg)
}
[dev.ssa] cmd/compile/internal/ssa: implement ODOT Implement ODOT. Similar to ArrayIndex, StructSelect selects a field out of a larger Value. We may need more ways to rewrite StructSelect, but StructSelect/Load is the typical way it is used. Change-Id: Ida7b8aab3298f4754eaf9fee733974cf8736e45d Reviewed-on: https://go-review.googlesource.com/12265 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-15 21:33:49 -07:00
// newValue1I adds a new value with one argument and an auxint value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue1I(op ssa.Op, t *types.Type, aux int64, arg *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue1I(s.peekPos(), op, t, aux, arg)
[dev.ssa] cmd/compile/internal/ssa: implement ODOT Implement ODOT. Similar to ArrayIndex, StructSelect selects a field out of a larger Value. We may need more ways to rewrite StructSelect, but StructSelect/Load is the typical way it is used. Change-Id: Ida7b8aab3298f4754eaf9fee733974cf8736e45d Reviewed-on: https://go-review.googlesource.com/12265 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-15 21:33:49 -07:00
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
// newValue2 adds a new value with two arguments to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue2(op ssa.Op, t *types.Type, arg0, arg1 *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue2(s.peekPos(), op, t, arg0, arg1)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
// newValue2A adds a new value with two arguments and an aux value to the current block.
func (s *state) newValue2A(op ssa.Op, t *types.Type, aux interface{}, arg0, arg1 *ssa.Value) *ssa.Value {
return s.curBlock.NewValue2A(s.peekPos(), op, t, aux, arg0, arg1)
}
cmd/compile: add LocalAddr that takes SP,mem operands Lack of a well-defined order between VarDef and related address operations sometimes causes problems with store order and write barrier transformations; glitches in the order are made irreparable (by later optimizations) if the two parts of the glitch straddle a split in the original block caused by insertion of a write barrier diamond. Fix this by creating a LocalAddr for addresses of locals (what VarDef matters for) that takes a memory input to help make the order explicit. Addr is modified to only be legal for SB operand, so there is no overlap between Addr and LocalAddr uses (there may be some downstream cleanup from this). Changes to generic.rules and rewrite.go ensure that codegen tests continue to pass; CSE of LocalAddr is impaired, not quite sure of the cost. Fixes #26105. Change-Id: Id4192b4440aa4e9d7ba54a465c456df9b530b515 Reviewed-on: https://go-review.googlesource.com/122483 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-03 11:34:38 -04:00
// newValue2Apos adds a new value with two arguments and an aux value to the current block.
// isStmt determines whether the created values may be a statement or not
// (i.e., false means never, yes means maybe).
func (s *state) newValue2Apos(op ssa.Op, t *types.Type, aux interface{}, arg0, arg1 *ssa.Value, isStmt bool) *ssa.Value {
if isStmt {
return s.curBlock.NewValue2A(s.peekPos(), op, t, aux, arg0, arg1)
}
return s.curBlock.NewValue2A(s.peekPos().WithNotStmt(), op, t, aux, arg0, arg1)
}
[dev.ssa] cmd/compile/internal/ssa: Initial implementation of memory zeroing This will make it possible for us to start implementing interfaces and other stack allocated types which are more than one machine word. Change-Id: I52b187a791cf1919cb70ed6dabdc9f57b317ea83 Reviewed-on: https://go-review.googlesource.com/11631 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-27 15:45:20 +01:00
// newValue2I adds a new value with two arguments and an auxint value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue2I(op ssa.Op, t *types.Type, aux int64, arg0, arg1 *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue2I(s.peekPos(), op, t, aux, arg0, arg1)
[dev.ssa] cmd/compile/internal/ssa: Initial implementation of memory zeroing This will make it possible for us to start implementing interfaces and other stack allocated types which are more than one machine word. Change-Id: I52b187a791cf1919cb70ed6dabdc9f57b317ea83 Reviewed-on: https://go-review.googlesource.com/11631 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-27 15:45:20 +01:00
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
// newValue3 adds a new value with three arguments to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue3(op ssa.Op, t *types.Type, arg0, arg1, arg2 *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue3(s.peekPos(), op, t, arg0, arg1, arg2)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
[dev.ssa] cmd/compile/internal/ssa: Use explicit size for store ops Using the type of the store argument is not safe, it may change during rewriting, giving us the wrong store width. (Store ptr (Trunc32to16 val) mem) This should be a 2-byte store. But we have the rule: (Trunc32to16 x) -> x So if the Trunc rewrite happens before the Store -> MOVW rewrite, then the Store thinks that the value it is storing is 4 bytes in size and uses a MOVL. Bad things ensue. Fix this by encoding the store width explicitly in the auxint field. In general, we can't rely on the type of arguments, as they may change during rewrites. The type of the op itself (as used by the Load rules) is still ok to use. Change-Id: I9e2359e4f657bb0ea0e40038969628bf0f84e584 Reviewed-on: https://go-review.googlesource.com/13636 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-14 21:47:20 -07:00
// newValue3I adds a new value with three arguments and an auxint value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue3I(op ssa.Op, t *types.Type, aux int64, arg0, arg1, arg2 *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue3I(s.peekPos(), op, t, aux, arg0, arg1, arg2)
[dev.ssa] cmd/compile/internal/ssa: Use explicit size for store ops Using the type of the store argument is not safe, it may change during rewriting, giving us the wrong store width. (Store ptr (Trunc32to16 val) mem) This should be a 2-byte store. But we have the rule: (Trunc32to16 x) -> x So if the Trunc rewrite happens before the Store -> MOVW rewrite, then the Store thinks that the value it is storing is 4 bytes in size and uses a MOVL. Bad things ensue. Fix this by encoding the store width explicitly in the auxint field. In general, we can't rely on the type of arguments, as they may change during rewrites. The type of the op itself (as used by the Load rules) is still ok to use. Change-Id: I9e2359e4f657bb0ea0e40038969628bf0f84e584 Reviewed-on: https://go-review.googlesource.com/13636 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-14 21:47:20 -07:00
}
cmd/compile: use type information in Aux for Store size Remove size AuxInt in Store, and alignment in Move/Zero. We still pass size AuxInt to Move/Zero, as it is used for partial Move/Zero lowering (e.g. cmd/compile/internal/ssa/gen/386.rules:288). SizeAndAlign is gone. Passes "toolstash -cmp" on std. Change-Id: I1ca34652b65dd30de886940e789fcf41d521475d Reviewed-on: https://go-review.googlesource.com/38150 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-13 21:51:08 -04:00
// newValue3A adds a new value with three arguments and an aux value to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue3A(op ssa.Op, t *types.Type, aux interface{}, arg0, arg1, arg2 *ssa.Value) *ssa.Value {
cmd/compile: use type information in Aux for Store size Remove size AuxInt in Store, and alignment in Move/Zero. We still pass size AuxInt to Move/Zero, as it is used for partial Move/Zero lowering (e.g. cmd/compile/internal/ssa/gen/386.rules:288). SizeAndAlign is gone. Passes "toolstash -cmp" on std. Change-Id: I1ca34652b65dd30de886940e789fcf41d521475d Reviewed-on: https://go-review.googlesource.com/38150 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-13 21:51:08 -04:00
return s.curBlock.NewValue3A(s.peekPos(), op, t, aux, arg0, arg1, arg2)
}
cmd/compile: adjust is-statement on Pos's to improve debugging Stores to auto tmp variables can be hoisted to places where the line numbers make debugging look "jumpy". Turning those instructions into ones with is_stmt = 0 in the DWARF (accomplished by marking ssa nodes with NotStmt) makes debugging look better while still attributing the instructions with the correct line number. The same is true for certain register allocator spills and reloads. Change-Id: I97a394eb522d4911cc40b4bf5bf76d3d7221f6c0 Reviewed-on: https://go-review.googlesource.com/98415 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-02 20:33:15 -05:00
// newValue3Apos adds a new value with three arguments and an aux value to the current block.
// isStmt determines whether the created values may be a statement or not
// (i.e., false means never, yes means maybe).
func (s *state) newValue3Apos(op ssa.Op, t *types.Type, aux interface{}, arg0, arg1, arg2 *ssa.Value, isStmt bool) *ssa.Value {
if isStmt {
return s.curBlock.NewValue3A(s.peekPos(), op, t, aux, arg0, arg1, arg2)
}
return s.curBlock.NewValue3A(s.peekPos().WithNotStmt(), op, t, aux, arg0, arg1, arg2)
}
cmd/compile: intrinsify the rest of runtime/internal/atomic for amd64 Atomic swap, add/and/or, compare and swap. Also works on amd64p32. Change-Id: Idf2d8f3e1255f71deba759e6e75e293afe4ab2ba Reviewed-on: https://go-review.googlesource.com/27813 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-25 16:02:57 -07:00
// newValue4 adds a new value with four arguments to the current block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) newValue4(op ssa.Op, t *types.Type, arg0, arg1, arg2, arg3 *ssa.Value) *ssa.Value {
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
return s.curBlock.NewValue4(s.peekPos(), op, t, arg0, arg1, arg2, arg3)
cmd/compile: intrinsify the rest of runtime/internal/atomic for amd64 Atomic swap, add/and/or, compare and swap. Also works on amd64p32. Change-Id: Idf2d8f3e1255f71deba759e6e75e293afe4ab2ba Reviewed-on: https://go-review.googlesource.com/27813 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-25 16:02:57 -07:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// newValue4 adds a new value with four arguments and an auxint value to the current block.
func (s *state) newValue4I(op ssa.Op, t *types.Type, aux int64, arg0, arg1, arg2, arg3 *ssa.Value) *ssa.Value {
return s.curBlock.NewValue4I(s.peekPos(), op, t, aux, arg0, arg1, arg2, arg3)
}
[dev.ssa] cmd/compile: store bools in AuxInt Store bools in AuxInt to reduce allocations. Change-Id: Ibd26db67fca5e1e2803f53d7ef094897968b704b Reviewed-on: https://go-review.googlesource.com/14276 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-03 18:24:22 -05:00
// entryNewValue0 adds a new value with no arguments to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue0(op ssa.Op, t *types.Type) *ssa.Value {
cmd/compile: don't attach lines to SB, SP, similar constants Attaching positions to SB, SP, initial mem can result in less-good line-numbering when compiled for debugging. This "fix" also removes source position from a zero-valued struct (but not from its fields) and from a zero-length array constant. This may be a general problem for constants in entry blocks. Fixes #20367. Change-Id: I7e9df3341be2e2f60f127d35bb31e43cdcfce9a1 Reviewed-on: https://go-review.googlesource.com/43531 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-05-15 13:49:30 -04:00
return s.f.Entry.NewValue0(src.NoXPos, op, t)
[dev.ssa] cmd/compiler/internal/ssa: Add auxint field Add an additional int64 auxiliary field to Value. There are two main reasons for doing this: 1) Ints in interfaces require allocation, and we store ints in Aux a lot. 2) I'd like to have both *gc.Sym and int offsets included in lots of operations (e.g. MOVQloadidx8). It will be more efficient to store them as separate fields instead of a pointer to a sym/int pair. It also simplifies a bunch of code. This is just the refactoring. I'll start using this some more in a subsequent changelist. Change-Id: I1ca797ff572553986cf90cab3ac0a0c1d01ad241 Reviewed-on: https://go-review.googlesource.com/10929 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-11 21:29:25 -07:00
}
[dev.ssa] cmd/compile: store bools in AuxInt Store bools in AuxInt to reduce allocations. Change-Id: Ibd26db67fca5e1e2803f53d7ef094897968b704b Reviewed-on: https://go-review.googlesource.com/14276 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-03 18:24:22 -05:00
// entryNewValue0A adds a new value with no arguments and an aux value to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue0A(op ssa.Op, t *types.Type, aux interface{}) *ssa.Value {
cmd/compile: use src.NoXPos for entry-block constants The ssa backend is aggressive about placing constants and certain other values in the Entry block. It's implausible that the original line numbers for these constants makes any sort of sense when it appears to a user stepping in a debugger, and they're also not that useful in dumps since entry-block instructions tend to be constants (i.e., unlikely to be the cause of a crash). Therefore, use src.NoXPos for any values that are explicitly inserted into a function's entry block. Passes all tests, including ssa/debug_test.go with both gdb and a fairly recent dlv. Hand-verified that it solves the reported problem; constructed a test that reproduced a problem, and fixed it. Modified test harness to allow injection of slightly more interesting inputs. Fixes #22558. Change-Id: I4476927067846bc4366da7793d2375c111694c55 Reviewed-on: https://go-review.googlesource.com/81215 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-11-30 15:11:34 -05:00
return s.f.Entry.NewValue0A(src.NoXPos, op, t, aux)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
// entryNewValue1 adds a new value with one argument to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue1(op ssa.Op, t *types.Type, arg *ssa.Value) *ssa.Value {
cmd/compile: use src.NoXPos for entry-block constants The ssa backend is aggressive about placing constants and certain other values in the Entry block. It's implausible that the original line numbers for these constants makes any sort of sense when it appears to a user stepping in a debugger, and they're also not that useful in dumps since entry-block instructions tend to be constants (i.e., unlikely to be the cause of a crash). Therefore, use src.NoXPos for any values that are explicitly inserted into a function's entry block. Passes all tests, including ssa/debug_test.go with both gdb and a fairly recent dlv. Hand-verified that it solves the reported problem; constructed a test that reproduced a problem, and fixed it. Modified test harness to allow injection of slightly more interesting inputs. Fixes #22558. Change-Id: I4476927067846bc4366da7793d2375c111694c55 Reviewed-on: https://go-review.googlesource.com/81215 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-11-30 15:11:34 -05:00
return s.f.Entry.NewValue1(src.NoXPos, op, t, arg)
[dev.ssa] cmd/compiler/internal/ssa: Add auxint field Add an additional int64 auxiliary field to Value. There are two main reasons for doing this: 1) Ints in interfaces require allocation, and we store ints in Aux a lot. 2) I'd like to have both *gc.Sym and int offsets included in lots of operations (e.g. MOVQloadidx8). It will be more efficient to store them as separate fields instead of a pointer to a sym/int pair. It also simplifies a bunch of code. This is just the refactoring. I'll start using this some more in a subsequent changelist. Change-Id: I1ca797ff572553986cf90cab3ac0a0c1d01ad241 Reviewed-on: https://go-review.googlesource.com/10929 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-11 21:29:25 -07:00
}
// entryNewValue1 adds a new value with one argument and an auxint value to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue1I(op ssa.Op, t *types.Type, auxint int64, arg *ssa.Value) *ssa.Value {
cmd/compile: use src.NoXPos for entry-block constants The ssa backend is aggressive about placing constants and certain other values in the Entry block. It's implausible that the original line numbers for these constants makes any sort of sense when it appears to a user stepping in a debugger, and they're also not that useful in dumps since entry-block instructions tend to be constants (i.e., unlikely to be the cause of a crash). Therefore, use src.NoXPos for any values that are explicitly inserted into a function's entry block. Passes all tests, including ssa/debug_test.go with both gdb and a fairly recent dlv. Hand-verified that it solves the reported problem; constructed a test that reproduced a problem, and fixed it. Modified test harness to allow injection of slightly more interesting inputs. Fixes #22558. Change-Id: I4476927067846bc4366da7793d2375c111694c55 Reviewed-on: https://go-review.googlesource.com/81215 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-11-30 15:11:34 -05:00
return s.f.Entry.NewValue1I(src.NoXPos, op, t, auxint, arg)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
// entryNewValue1A adds a new value with one argument and an aux value to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue1A(op ssa.Op, t *types.Type, aux interface{}, arg *ssa.Value) *ssa.Value {
cmd/compile: use src.NoXPos for entry-block constants The ssa backend is aggressive about placing constants and certain other values in the Entry block. It's implausible that the original line numbers for these constants makes any sort of sense when it appears to a user stepping in a debugger, and they're also not that useful in dumps since entry-block instructions tend to be constants (i.e., unlikely to be the cause of a crash). Therefore, use src.NoXPos for any values that are explicitly inserted into a function's entry block. Passes all tests, including ssa/debug_test.go with both gdb and a fairly recent dlv. Hand-verified that it solves the reported problem; constructed a test that reproduced a problem, and fixed it. Modified test harness to allow injection of slightly more interesting inputs. Fixes #22558. Change-Id: I4476927067846bc4366da7793d2375c111694c55 Reviewed-on: https://go-review.googlesource.com/81215 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-11-30 15:11:34 -05:00
return s.f.Entry.NewValue1A(src.NoXPos, op, t, aux, arg)
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
// entryNewValue2 adds a new value with two arguments to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) entryNewValue2(op ssa.Op, t *types.Type, arg0, arg1 *ssa.Value) *ssa.Value {
cmd/compile: use src.NoXPos for entry-block constants The ssa backend is aggressive about placing constants and certain other values in the Entry block. It's implausible that the original line numbers for these constants makes any sort of sense when it appears to a user stepping in a debugger, and they're also not that useful in dumps since entry-block instructions tend to be constants (i.e., unlikely to be the cause of a crash). Therefore, use src.NoXPos for any values that are explicitly inserted into a function's entry block. Passes all tests, including ssa/debug_test.go with both gdb and a fairly recent dlv. Hand-verified that it solves the reported problem; constructed a test that reproduced a problem, and fixed it. Modified test harness to allow injection of slightly more interesting inputs. Fixes #22558. Change-Id: I4476927067846bc4366da7793d2375c111694c55 Reviewed-on: https://go-review.googlesource.com/81215 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-11-30 15:11:34 -05:00
return s.f.Entry.NewValue2(src.NoXPos, op, t, arg0, arg1)
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
cmd/compile: add LocalAddr that takes SP,mem operands Lack of a well-defined order between VarDef and related address operations sometimes causes problems with store order and write barrier transformations; glitches in the order are made irreparable (by later optimizations) if the two parts of the glitch straddle a split in the original block caused by insertion of a write barrier diamond. Fix this by creating a LocalAddr for addresses of locals (what VarDef matters for) that takes a memory input to help make the order explicit. Addr is modified to only be legal for SB operand, so there is no overlap between Addr and LocalAddr uses (there may be some downstream cleanup from this). Changes to generic.rules and rewrite.go ensure that codegen tests continue to pass; CSE of LocalAddr is impaired, not quite sure of the cost. Fixes #26105. Change-Id: Id4192b4440aa4e9d7ba54a465c456df9b530b515 Reviewed-on: https://go-review.googlesource.com/122483 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-03 11:34:38 -04:00
// entryNewValue2A adds a new value with two arguments and an aux value to the entry block.
func (s *state) entryNewValue2A(op ssa.Op, t *types.Type, aux interface{}, arg0, arg1 *ssa.Value) *ssa.Value {
return s.f.Entry.NewValue2A(src.NoXPos, op, t, aux, arg0, arg1)
}
[dev.ssa] cmd/compile: add constBool helpers Change-Id: I1f93ea65bbdc895cd4eff7545e1688a64d85aae5 Reviewed-on: https://go-review.googlesource.com/14520 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-08 16:52:25 -07:00
// const* routines add a new const value to the entry block.
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constSlice(t *types.Type) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstSlice(t)
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
}
func (s *state) constInterface(t *types.Type) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstInterface(t)
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
}
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
func (s *state) constNil(t *types.Type) *ssa.Value { return s.f.ConstNil(t) }
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constEmptyString(t *types.Type) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstEmptyString(t)
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
}
[dev.ssa] cmd/compile: add constBool helpers Change-Id: I1f93ea65bbdc895cd4eff7545e1688a64d85aae5 Reviewed-on: https://go-review.googlesource.com/14520 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-08 16:52:25 -07:00
func (s *state) constBool(c bool) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.f.ConstBool(types.Types[types.TBOOL], c)
[dev.ssa] cmd/compile: add constBool helpers Change-Id: I1f93ea65bbdc895cd4eff7545e1688a64d85aae5 Reviewed-on: https://go-review.googlesource.com/14520 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-08 16:52:25 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constInt8(t *types.Type, c int8) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstInt8(t, c)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constInt16(t *types.Type, c int16) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstInt16(t, c)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constInt32(t *types.Type, c int32) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstInt32(t, c)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constInt64(t *types.Type, c int64) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstInt64(t, c)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constFloat32(t *types.Type, c float64) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstFloat32(t, c)
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constFloat64(t *types.Type, c float64) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstFloat64(t, c)
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constInt(t *types.Type, c int64) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 8 {
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
return s.constInt64(t, c)
}
if int64(int32(c)) != c {
s.Fatalf("integer constant too big %d", c)
}
return s.constInt32(t, int32(c))
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (s *state) constOffPtrSP(t *types.Type, c int64) *ssa.Value {
cmd: remove a few more unused parameters ssa's pos parameter on the Const* funcs is unused, so remove it. ld's alloc parameter on elfnote is always true, so remove the arguments and simplify the code. Finally, arm's addpltreloc never has its return parameter used, so remove it. Change-Id: I63387ecf6ab7b5f7c20df36be823322bb98427b8 Reviewed-on: https://go-review.googlesource.com/104456 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-03 15:52:30 +01:00
return s.f.ConstOffPtrSP(t, c, s.sp)
cmd/compile: add OpOffPtr [c] SP to constant cache They accounted for almost 30% of all CSE'd values. By never creating the duplicates in the first place, we reduce the high water mark of Value IDs, which in turn makes all SSA phases cheaper, particularly regalloc. name old time/op new time/op delta Template 200ms ± 3% 198ms ± 4% -0.87% (p=0.016 n=50+49) Unicode 86.9ms ± 2% 85.5ms ± 3% -1.56% (p=0.000 n=49+50) GoTypes 553ms ± 4% 551ms ± 4% ~ (p=0.183 n=50+49) SSA 3.97s ± 3% 3.93s ± 2% -1.06% (p=0.000 n=48+48) Flate 124ms ± 4% 124ms ± 3% ~ (p=0.545 n=48+50) GoParser 146ms ± 4% 146ms ± 4% ~ (p=0.810 n=49+49) Reflect 357ms ± 3% 355ms ± 3% -0.59% (p=0.049 n=50+48) Tar 106ms ± 4% 107ms ± 5% ~ (p=0.454 n=49+50) XML 203ms ± 4% 203ms ± 4% ~ (p=0.726 n=48+50) name old user-ns/op new user-ns/op delta Template 237M ± 3% 235M ± 4% ~ (p=0.208 n=47+48) Unicode 111M ± 4% 108M ± 9% -2.50% (p=0.000 n=47+50) GoTypes 736M ± 5% 729M ± 4% -0.95% (p=0.017 n=50+46) SSA 5.73G ± 4% 5.74G ± 4% ~ (p=0.765 n=50+50) Flate 150M ± 5% 148M ± 6% -0.89% (p=0.045 n=48+47) GoParser 180M ± 5% 178M ± 7% -1.34% (p=0.012 n=50+50) Reflect 450M ± 4% 444M ± 4% -1.40% (p=0.000 n=50+49) Tar 124M ± 7% 123M ± 7% ~ (p=0.092 n=50+50) XML 248M ± 6% 245M ± 5% ~ (p=0.057 n=50+50) name old alloc/op new alloc/op delta Template 39.4MB ± 0% 39.3MB ± 0% -0.37% (p=0.000 n=50+50) Unicode 30.9MB ± 0% 30.9MB ± 0% -0.27% (p=0.000 n=48+50) GoTypes 114MB ± 0% 113MB ± 0% -1.03% (p=0.000 n=50+49) SSA 882MB ± 0% 865MB ± 0% -1.95% (p=0.000 n=49+49) Flate 25.8MB ± 0% 25.7MB ± 0% -0.21% (p=0.000 n=50+50) GoParser 31.7MB ± 0% 31.6MB ± 0% -0.33% (p=0.000 n=50+50) Reflect 79.7MB ± 0% 79.3MB ± 0% -0.49% (p=0.000 n=44+49) Tar 27.2MB ± 0% 27.1MB ± 0% -0.31% (p=0.000 n=50+50) XML 42.7MB ± 0% 42.3MB ± 0% -1.05% (p=0.000 n=48+49) name old allocs/op new allocs/op delta Template 379k ± 1% 380k ± 1% +0.26% (p=0.000 n=50+50) Unicode 324k ± 1% 324k ± 1% ~ (p=0.964 n=49+50) GoTypes 1.14M ± 0% 1.15M ± 0% +0.14% (p=0.000 n=50+49) SSA 7.89M ± 0% 7.89M ± 0% -0.05% (p=0.000 n=49+49) Flate 240k ± 1% 241k ± 1% +0.27% (p=0.001 n=50+50) GoParser 310k ± 1% 311k ± 1% +0.48% (p=0.000 n=50+49) Reflect 1.00M ± 0% 1.00M ± 0% +0.17% (p=0.000 n=48+50) Tar 254k ± 1% 255k ± 1% +0.23% (p=0.005 n=50+50) XML 395k ± 1% 395k ± 1% +0.19% (p=0.002 n=49+47) Change-Id: Iaa8f5f37e23bd81983409f7359f9dcd4dfe2961f Reviewed-on: https://go-review.googlesource.com/38003 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-03-08 12:50:00 -08:00
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
// newValueOrSfCall* are wrappers around newValue*, which may create a call to a
// soft-float runtime function instead (when emitting soft-float code).
func (s *state) newValueOrSfCall1(op ssa.Op, t *types.Type, arg *ssa.Value) *ssa.Value {
if s.softFloat {
if c, ok := s.sfcall(op, arg); ok {
return c
}
}
return s.newValue1(op, t, arg)
}
func (s *state) newValueOrSfCall2(op ssa.Op, t *types.Type, arg0, arg1 *ssa.Value) *ssa.Value {
if s.softFloat {
if c, ok := s.sfcall(op, arg0, arg1); ok {
return c
}
}
return s.newValue2(op, t, arg0, arg1)
}
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
func (s *state) instrument(t *types.Type, addr *ssa.Value, wr bool) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !s.curfn.Func().InstrumentBody() {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
return
}
w := t.Size()
if w == 0 {
return // can't race on zero-sized things
}
if ssa.IsSanitizerSafeAddr(addr) {
return
}
var fn *obj.LSym
needWidth := false
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.MSan {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
fn = msanread
if wr {
fn = msanwrite
}
needWidth = true
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
} else if base.Flag.Race && t.NumComponents(types.CountBlankFields) > 1 {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
// for composite objects we have to write every address
// because a write might happen to any subobject.
// composites with only one element don't have subobjects, though.
fn = racereadrange
if wr {
fn = racewriterange
}
needWidth = true
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
} else if base.Flag.Race {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
// for non-composite objects we can write just the start
// address, as any write must write the first byte.
fn = raceread
if wr {
fn = racewrite
}
} else {
panic("unreachable")
}
args := []*ssa.Value{addr}
if needWidth {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
args = append(args, s.constInt(types.Types[types.TUINTPTR], w))
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
}
s.rtcall(fn, true, nil, args...)
}
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
func (s *state) load(t *types.Type, src *ssa.Value) *ssa.Value {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
s.instrument(t, src, false)
return s.rawLoad(t, src)
}
func (s *state) rawLoad(t *types.Type, src *ssa.Value) *ssa.Value {
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
return s.newValue2(ssa.OpLoad, t, src, s.mem())
}
func (s *state) store(t *types.Type, dst, val *ssa.Value) {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3A(ssa.OpStore, types.TypeMem, t, dst, val, s.mem())
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
}
func (s *state) zero(t *types.Type, dst *ssa.Value) {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
s.instrument(t, dst, true)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
store := s.newValue2I(ssa.OpZero, types.TypeMem, t.Size(), dst, s.mem())
store.Aux = t
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = store
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
}
func (s *state) move(t *types.Type, dst, src *ssa.Value) {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
s.instrument(t, src, false)
s.instrument(t, dst, true)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
store := s.newValue3I(ssa.OpMove, types.TypeMem, t.Size(), dst, src, s.mem())
store.Aux = t
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = store
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
}
cmd/compile: remove duplicate statement list function Probably a holdover from linked list vs. slice. Change-Id: Ib2540b08ef0ae48707d44a5d57bc23f8d65c760d Reviewed-on: https://go-review.googlesource.com/30256 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-10-04 09:49:33 -07:00
// stmtList converts the statement list n to SSA and adds it to s.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
func (s *state) stmtList(l ir.Nodes) {
cmd/compile: rewrite code to omit many nodeSeq calls This CL was automatically generated using a special-purpose AST rewriting tool, followed by manual editing to put some comments back in the right places and fix some bad line breaks. The result is not perfect but it's a big step toward getting back to sanity, and because it was automatically generated there is a decent chance that it is correct. Passes toolstash -cmp. Update #14473. Change-Id: I01c09078a6d78e2b008bc304d744b79469a38d3d Reviewed-on: https://go-review.googlesource.com/20440 Reviewed-by: David Crawshaw <crawshaw@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-03-08 15:10:26 -08:00
for _, n := range l.Slice() {
s.stmt(n)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
}
cmd/compile: remove duplicate statement list function Probably a holdover from linked list vs. slice. Change-Id: Ib2540b08ef0ae48707d44a5d57bc23f8d65c760d Reviewed-on: https://go-review.googlesource.com/30256 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-10-04 09:49:33 -07:00
// stmt converts the statement n to SSA and adds it to s.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) stmt(n ir.Node) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !(n.Op() == ir.OVARKILL || n.Op() == ir.OVARLIVE || n.Op() == ir.OVARDEF) {
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
// OVARKILL, OVARLIVE, and OVARDEF are invisible to the programmer, so we don't use their line numbers to avoid confusion in debugging.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.pushLine(n.Pos())
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
defer s.popLine()
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
// If s.curBlock is nil, and n isn't a label (which might have an associated goto somewhere),
// then this code is dead. Stop here.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if s.curBlock == nil && n.Op() != ir.OLABEL {
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
return
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Init())
switch n.Op() {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OBLOCK:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile: call through to expr for expression statements Change-Id: I8625eff33f5a49dbaaec060c3fa067d7531193c4 Reviewed-on: https://go-review.googlesource.com/12313 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-16 13:25:36 -06:00
// No-ops
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OEMPTY, ir.ODCLCONST, ir.ODCLTYPE, ir.OFALL:
[dev.ssa] cmd/compile: implement OCAP And dependent fixes and misc cleanup. Co-hacking with josharian at Gophercon. Change-Id: Ib85dc13b303929017eb0a4d2fc2f603485f7479b Reviewed-on: https://go-review.googlesource.com/12027 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-10 10:47:28 -06:00
[dev.ssa] cmd/compile: call through to expr for expression statements Change-Id: I8625eff33f5a49dbaaec060c3fa067d7531193c4 Reviewed-on: https://go-review.googlesource.com/12313 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-16 13:25:36 -06:00
// Expression statements
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLFUNC:
cmd/compile: inline atomics from runtime/internal/atomic on amd64 Inline atomic reads and writes on amd64. There's no reason to pay the overhead of a call for these. To keep atomic loads from being reordered, we make them return a <value,memory> tuple. Change the meaning of resultInArg0 for tuple-generating ops to mean the first part of the result tuple, not the second. This means we can always put the store part of the tuple last, matching how arguments are laid out. This requires reordering the outputs of add32carry and sub32carry and their descendents in various architectures. benchmark old ns/op new ns/op delta BenchmarkAtomicLoad64-8 2.09 0.26 -87.56% BenchmarkAtomicStore64-8 7.54 5.72 -24.14% TBD (in a different CL): Cas, Or8, ... Change-Id: I713ea88e7da3026c44ea5bdb56ed094b20bc5207 Reviewed-on: https://go-review.googlesource.com/27641 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-23 16:49:28 -07:00
if isIntrinsicCall(n) {
s.intrinsicCall(n)
return
}
fallthrough
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLMETH, ir.OCALLINTER:
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
s.callResult(n, callNormal)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OCALLFUNC && n.Left().Op() == ir.ONAME && n.Left().Class() == ir.PFUNC {
if fn := n.Left().Sym().Name; base.Flag.CompilingRuntime && fn == "throw" ||
n.Left().Sym().Pkg == Runtimepkg && (fn == "throwinit" || fn == "gopanic" || fn == "panicwrap" || fn == "block" || fn == "panicmakeslicelen" || fn == "panicmakeslicecap") {
cmd/compile: add more non-returning runtime calls This list now matches the one in popt.go. Change-Id: Ib24de531cc35252f0ef276e5c6d247654b021533 Reviewed-on: https://go-review.googlesource.com/28965 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-09-11 08:29:04 -07:00
m := s.mem()
b := s.endBlock()
b.Kind = ssa.BlockExit
b.SetControl(m)
// TODO: never rewrite OPANIC to OCALLFUNC in the
// first place. Need to wait until all backends
// go through SSA.
}
[dev.ssa] cmd/compile: panic doesn't return Panic doesn't return, so record that we immediately exit after a panic call. This will help code analysis. Change-Id: I4d1f67494f97b6aee130c43ff4e44307b2b0f149 Reviewed-on: https://go-review.googlesource.com/19303 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-02-06 22:35:34 -08:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODEFER:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.Defer > 0 {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
var defertype string
if s.hasOpenDefers {
defertype = "open-coded"
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
} else if n.Esc() == EscNever {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
defertype = "stack-allocated"
} else {
defertype = "heap-allocated"
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "%s defer", defertype)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
if s.hasOpenDefers {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.openDeferRecord(n.Left())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
} else {
d := callDefer
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Esc() == EscNever {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
d = callDeferStack
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.callResult(n.Left(), d)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OGO:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.callResult(n.Left(), callGo)
[dev.ssa] cmd/compile: call through to expr for expression statements Change-Id: I8625eff33f5a49dbaaec060c3fa067d7531193c4 Reviewed-on: https://go-review.googlesource.com/12313 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-16 13:25:36 -06:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAS2DOTTYPE:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
res, resok := s.dottype(n.Right(), true)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
deref := false
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !canSSAType(n.Right().Type()) {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if res.Op != ssa.OpLoad {
s.Fatalf("dottype of non-load")
}
mem := s.mem()
if mem.Op == ssa.OpVarKill {
mem = mem.Args[0]
}
if res.Args[1] != mem {
s.Fatalf("memory no longer live from 2-result dottype load")
}
deref = true
res = res.Args[0]
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.assign(n.List().First(), res, deref, 0)
s.assign(n.List().Second(), resok, false, 0)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
return
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAS2FUNC:
cmd/compile: intrinsify math/big.mulWW, divWW on AMD64 Change-Id: I59f7afa7a5803d19f8b21fe70fc85ef997bb3a85 Reviewed-on: https://go-review.googlesource.com/30542 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-06 15:43:47 -04:00
// We come here only when it is an intrinsic call returning two values.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !isIntrinsicCall(n.Right()) {
s.Fatalf("non-intrinsic AS2FUNC not expanded %v", n.Right())
}
v := s.intrinsicCall(n.Right())
v1 := s.newValue1(ssa.OpSelect0, n.List().First().Type(), v)
v2 := s.newValue1(ssa.OpSelect1, n.List().Second().Type(), v)
s.assign(n.List().First(), v1, false, 0)
s.assign(n.List().Second(), v2, false, 0)
cmd/compile: intrinsify math/big.mulWW, divWW on AMD64 Change-Id: I59f7afa7a5803d19f8b21fe70fc85ef997bb3a85 Reviewed-on: https://go-review.googlesource.com/30542 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-06 15:43:47 -04:00
return
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODCL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Class() == ir.PAUTOHEAP {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("DCL %v", n)
[dev.ssa] initial implementation of PAUTO|PHEAP variables Call to the runtime to generate escaping variables and use the returned address when accessing these variables. Fix a couple of errors on the way. The rule for CALLstatic was missed during the Aux refactor and OCONVNOP wasn't converted. Change-Id: I2096beff92cca92d648bfb6e8ec0b120f02f44af Reviewed-on: https://go-review.googlesource.com/11072 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 14:23:29 +01:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLABEL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym := n.Sym()
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab := s.label(sym)
// The label might already have a target block via a goto.
if lab.target == nil {
lab.target = s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile/internal/gc: Small fixes Allow labels to be unreachable via fallthrough from above. Implement OCONVNOP. Change-Id: I6869993cad8a27ad134dd637de89a40117daf47b Reviewed-on: https://go-review.googlesource.com/11001 Reviewed-by: Daniel Morsing <daniel.morsing@gmail.com>
2015-06-12 16:24:33 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
cmd/compile: avoid generating some dead blocks We generate a lot of pointless dead blocks during the AST to SSA conversion. There are a few commonly occurring kinds of statements that contain neither variables nor code and that switch to a new block themselves. Stop making dead blocks for them. For the code in #19379, this reduces compilation wall time by 36% and max rss by 28%. This also helps a little for regular code, particularly code heavy on switch statements. name old time/op new time/op delta Template 231ms ± 3% 230ms ± 5% ~ (p=0.402 n=17+16) Unicode 101ms ± 4% 103ms ± 5% ~ (p=0.221 n=19+18) GoTypes 635ms ± 5% 625ms ± 4% ~ (p=0.063 n=20+18) Compiler 2.93s ± 2% 2.89s ± 2% -1.22% (p=0.003 n=20+19) SSA 4.53s ± 3% 4.52s ± 3% ~ (p=0.380 n=20+19) Flate 132ms ± 4% 133ms ± 5% ~ (p=0.647 n=20+19) GoParser 161ms ± 3% 161ms ± 4% ~ (p=0.749 n=20+19) Reflect 403ms ± 4% 397ms ± 3% -1.53% (p=0.030 n=20+19) Tar 121ms ± 2% 121ms ± 8% ~ (p=0.544 n=19+19) XML 225ms ± 3% 224ms ± 4% ~ (p=0.396 n=20+19) name old user-ns/op new user-ns/op delta Template 302user-ms ± 1% 297user-ms ± 7% -1.49% (p=0.048 n=15+18) Unicode 142user-ms ± 3% 143user-ms ± 5% ~ (p=0.363 n=19+17) GoTypes 852user-ms ± 5% 851user-ms ± 3% ~ (p=0.851 n=20+18) Compiler 4.11user-s ± 6% 3.98user-s ± 3% -3.08% (p=0.000 n=20+19) SSA 6.91user-s ± 5% 6.82user-s ± 7% ~ (p=0.113 n=20+19) Flate 164user-ms ± 4% 168user-ms ± 4% +2.42% (p=0.001 n=18+19) GoParser 207user-ms ± 4% 206user-ms ± 4% ~ (p=0.176 n=20+18) Reflect 509user-ms ± 4% 505user-ms ± 4% ~ (p=0.113 n=20+19) Tar 153user-ms ± 7% 151user-ms ± 9% ~ (p=0.283 n=20+19) XML 284user-ms ± 4% 282user-ms ± 4% ~ (p=0.270 n=20+19) name old alloc/op new alloc/op delta Template 42.6MB ± 0% 41.9MB ± 0% -1.55% (p=0.000 n=19+19) Unicode 31.7MB ± 0% 31.7MB ± 0% ~ (p=0.828 n=20+18) GoTypes 124MB ± 0% 121MB ± 0% -2.11% (p=0.000 n=20+17) Compiler 534MB ± 0% 523MB ± 0% -2.06% (p=0.000 n=20+19) SSA 989MB ± 0% 977MB ± 0% -1.28% (p=0.000 n=20+19) Flate 27.8MB ± 0% 27.5MB ± 0% -0.98% (p=0.000 n=20+19) GoParser 34.3MB ± 0% 34.0MB ± 0% -0.81% (p=0.000 n=20+19) Reflect 84.6MB ± 0% 82.9MB ± 0% -2.00% (p=0.000 n=17+18) Tar 28.8MB ± 0% 28.3MB ± 0% -1.52% (p=0.000 n=16+18) XML 47.2MB ± 0% 45.8MB ± 0% -2.99% (p=0.000 n=20+19) name old allocs/op new allocs/op delta Template 421k ± 1% 419k ± 1% -0.41% (p=0.001 n=20+19) Unicode 338k ± 1% 338k ± 1% ~ (p=0.478 n=20+19) GoTypes 1.28M ± 0% 1.28M ± 0% -0.36% (p=0.000 n=20+18) Compiler 5.06M ± 0% 5.03M ± 0% -0.63% (p=0.000 n=20+19) SSA 9.14M ± 0% 9.11M ± 0% -0.34% (p=0.000 n=20+19) Flate 267k ± 1% 266k ± 1% ~ (p=0.149 n=20+19) GoParser 347k ± 0% 347k ± 1% ~ (p=0.103 n=19+19) Reflect 1.07M ± 0% 1.07M ± 0% -0.42% (p=0.000 n=16+18) Tar 274k ± 0% 273k ± 1% ~ (p=0.116 n=19+19) XML 449k ± 0% 446k ± 1% -0.60% (p=0.000 n=20+19) Updates #19379 Change-Id: Ie798c347a0c081f5e349e1529880bebaae290967 Reviewed-on: https://go-review.googlesource.com/37760 Reviewed-by: David Chase <drchase@google.com>
2017-03-03 16:15:35 -08:00
// Go to that label.
// (We pretend "label:" is preceded by "goto label", unless the predecessor is unreachable.)
if s.curBlock != nil {
b := s.endBlock()
b.AddEdgeTo(lab.target)
}
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
s.startBlock(lab.target)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OGOTO:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym := n.Sym()
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab := s.label(sym)
if lab.target == nil {
lab.target = s.f.NewBlock(ssa.BlockPlain)
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
b := s.endBlock()
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
b.Pos = s.lastPos.WithIsStmt() // Do this even if b is an empty block.
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(lab.target)
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAS:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left() == n.Right() && n.Left().Op() == ir.ONAME {
cmd/compile: fix x=x assignments No point in doing anything for x=x assignments. In addition, skipping these assignments prevents generating: VARDEF x COPY x -> x which is bad because x is incorrectly considered dead before the vardef. Fixes #14904 Change-Id: I6817055ec20bcc34a9648617e0439505ee355f82 Reviewed-on: https://go-review.googlesource.com/21470 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Dave Cheney <dave@cheney.net>
2016-04-01 11:05:30 -07:00
// An x=x assignment. No point in doing anything
// here. In addition, skipping this assignment
// prevents generating:
// VARDEF x
// COPY x -> x
// which is bad because x is incorrectly considered
// dead before the vardef. See issue #14904.
return
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
// Evaluate RHS.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
rhs := n.Right()
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
if rhs != nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch rhs.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSTRUCTLIT, ir.OARRAYLIT, ir.OSLICELIT:
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// All literals with nonzero fields have already been
// rewritten during walk. Any that remain are just T{}
// or equivalents. Use the zero value.
cmd/compile/internal/gc: add some Node methods Focus on "isfoo" funcs that take a *Node, and conver them to isFoo methods instead. This makes for more idiomatic Go code, and also more readable func names. Found candidates with grep, and applied most changes with sed. The funcs chosen were isgoconst, isnil, and isblank. All had the same signature, func(*Node) bool. While at it, camelCase the isliteral and iszero function names. Don't move these to methods, as they are only used in the backend part of gc, which might one day be split into a separate package. Passes toolstash -cmp on std cmd. Change-Id: I4df081b12d36c46c253167c8841c5a841f1c5a16 Reviewed-on: https://go-review.googlesource.com/105555 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-04-08 13:39:10 +01:00
if !isZero(rhs) {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("literal with nonzero value in SSA: %v", rhs)
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
}
rhs = nil
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAPPEND:
cmd/compile: tweaks to unindent some code Prioritized the chunks of code with 8 or more levels of indentation. Basically early breaks/returns and joining nested ifs. Change-Id: I6817df1303226acf2eb904a29f2db720e4f7427a Reviewed-on: https://go-review.googlesource.com/55630 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-08-10 23:41:17 +09:00
// Check whether we're writing the result of an append back to the same slice.
// If so, we handle it specially to avoid write barriers on the fast
// (non-growth) path.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !samesafeexpr(n.Left(), rhs.List().First()) || base.Flag.N != 0 {
cmd/compile: tweaks to unindent some code Prioritized the chunks of code with 8 or more levels of indentation. Basically early breaks/returns and joining nested ifs. Change-Id: I6817df1303226acf2eb904a29f2db720e4f7427a Reviewed-on: https://go-review.googlesource.com/55630 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-08-10 23:41:17 +09:00
break
}
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// If the slice can be SSA'd, it'll be on the stack,
// so there will be no write barriers,
// so there's no need to attempt to prevent them.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if s.canSSA(n.Left()) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.Append > 0 { // replicating old diagnostic message
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "append: len-only update (in local slice)")
cmd/compile: Repurpose old sliceopt.go for prove phase. Adapt old test for prove's bounds check elimination. Added missing rule to generic rules that lead to differences between 32 and 64 bit platforms on sliceopt test. Added debugging to prove.go that was helpful-to-necessary to discover that missing rule. Lowered debugging level on prove.go from 3 to 1; no idea why it was previously 3. Change-Id: I09de206aeb2fced9f2796efe2bfd4a59927eda0c Reviewed-on: https://go-review.googlesource.com/23290 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-19 11:47:52 -04:00
}
cmd/compile: tweaks to unindent some code Prioritized the chunks of code with 8 or more levels of indentation. Basically early breaks/returns and joining nested ifs. Change-Id: I6817df1303226acf2eb904a29f2db720e4f7427a Reviewed-on: https://go-review.googlesource.com/55630 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-08-10 23:41:17 +09:00
break
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.Append > 0 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "append: len-only update")
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
}
cmd/compile: tweaks to unindent some code Prioritized the chunks of code with 8 or more levels of indentation. Basically early breaks/returns and joining nested ifs. Change-Id: I6817df1303226acf2eb904a29f2db720e4f7427a Reviewed-on: https://go-review.googlesource.com/55630 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-08-10 23:41:17 +09:00
s.append(rhs, true)
return
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
}
}
cmd/compile: dowidth more in the front end dowidth is fundamentally unsafe to call from the back end; it will cause data races. Replace all calls to dowidth in the backend with assertions that the width has been calculated. Then fix all the cases in which that was not so, including the cases from #20145. Fixes #20145. Change-Id: Idba3d19d75638851a30ec2ebcdb703c19da3e92b Reviewed-on: https://go-review.googlesource.com/41970 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 09:27:52 -07:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if ir.IsBlank(n.Left()) {
cmd/compile: dowidth more in the front end dowidth is fundamentally unsafe to call from the back end; it will cause data races. Replace all calls to dowidth in the backend with assertions that the width has been calculated. Then fix all the cases in which that was not so, including the cases from #20145. Fixes #20145. Change-Id: Idba3d19d75638851a30ec2ebcdb703c19da3e92b Reviewed-on: https://go-review.googlesource.com/41970 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 09:27:52 -07:00
// _ = rhs
// Just evaluate rhs for side-effects.
if rhs != nil {
s.expr(rhs)
}
return
}
var t *types.Type
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Right() != nil {
t = n.Right().Type()
cmd/compile: dowidth more in the front end dowidth is fundamentally unsafe to call from the back end; it will cause data races. Replace all calls to dowidth in the backend with assertions that the width has been calculated. Then fix all the cases in which that was not so, including the cases from #20145. Fixes #20145. Change-Id: Idba3d19d75638851a30ec2ebcdb703c19da3e92b Reviewed-on: https://go-review.googlesource.com/41970 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 09:27:52 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t = n.Left().Type()
cmd/compile: dowidth more in the front end dowidth is fundamentally unsafe to call from the back end; it will cause data races. Replace all calls to dowidth in the backend with assertions that the width has been calculated. Then fix all the cases in which that was not so, including the cases from #20145. Fixes #20145. Change-Id: Idba3d19d75638851a30ec2ebcdb703c19da3e92b Reviewed-on: https://go-review.googlesource.com/41970 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 09:27:52 -07:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
var r *ssa.Value
deref := !canSSAType(t)
if deref {
if rhs == nil {
r = nil // Signal assign to use OpZero.
} else {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
r = s.addr(rhs)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
}
} else {
if rhs == nil {
r = s.zeroVal(t)
[dev.ssa] cmd/compile: implement OSTRUCTLIT and OARRAYLIT The frontend rewrites most literals, so we see only zero ones during SSA construction. We can implement those using the existing zeroing behavior. Change-Id: I390ad1be0a4b6729baf0c8936c7610aae2aef049 Reviewed-on: https://go-review.googlesource.com/14754 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2015-09-18 22:12:38 -07:00
} else {
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
r = s.expr(rhs)
[dev.ssa] cmd/compile: implement OSTRUCTLIT and OARRAYLIT The frontend rewrites most literals, so we see only zero ones during SSA construction. We can implement those using the existing zeroing behavior. Change-Id: I390ad1be0a4b6729baf0c8936c7610aae2aef049 Reviewed-on: https://go-review.googlesource.com/14754 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2015-09-18 22:12:38 -07:00
}
[dev.ssa] cmd/compile: refactor assign Move the AST to SSA conversion to the caller. This enables it to be used in contexts in which the RHS is already an *ssa.Value. Change-Id: Ibb87210fb9fda095a9b7c7f4ad1264a7cbd269bf Reviewed-on: https://go-review.googlesource.com/14521 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org>
2015-08-29 14:54:45 -07:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
var skip skipMask
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if rhs != nil && (rhs.Op() == ir.OSLICE || rhs.Op() == ir.OSLICE3 || rhs.Op() == ir.OSLICESTR) && samesafeexpr(rhs.Left(), n.Left()) {
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
// We're assigning a slicing operation back to its source.
// Don't write back fields we aren't changing. See issue #14855.
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
i, j, k := rhs.SliceBounds()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if i != nil && (i.Op() == ir.OLITERAL && i.Val().Kind() == constant.Int && i.Int64Val() == 0) {
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
// [0:...] is the same as [:...]
i = nil
}
// TODO: detect defaults for len/cap also.
// Currently doesn't really work because (*p)[:len(*p)] appears here as:
// tmp = len(*p)
// (*p)[:tmp]
//if j != nil && (j.Op == OLEN && samesafeexpr(j.Left, n.Left)) {
// j = nil
//}
//if k != nil && (k.Op == OCAP && samesafeexpr(k.Left, n.Left)) {
// k = nil
//}
if i == nil {
skip |= skipPtr
if j == nil {
skip |= skipLen
}
if k == nil {
skip |= skipCap
}
}
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.assign(n.Left(), r, deref, skip)
[dev.ssa] initial implementation of PAUTO|PHEAP variables Call to the runtime to generate escaping variables and use the returned address when accessing these variables. Fix a couple of errors on the way. The rule for CALLstatic was missed during the Aux refactor and OCONVNOP wasn't converted. Change-Id: I2096beff92cca92d648bfb6e8ec0b120f02f44af Reviewed-on: https://go-review.googlesource.com/11072 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 14:23:29 +01:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OIF:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if ir.IsConst(n.Left(), constant.Bool) {
s.stmtList(n.Left().Init())
if n.Left().BoolVal() {
s.stmtList(n.Body())
cmd/compile: simplify converted SSA form for 'if false' The goal here is to make it easier for a human to examine the SSA when a function contains lots of dead code. No significant compiler metric or generated code differences. Change-Id: I81915fa4639bc8820cc9a5e45e526687d0d1f57a Reviewed-on: https://go-review.googlesource.com/c/go/+/221791 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-02 13:51:20 -08:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Rlist())
cmd/compile: simplify converted SSA form for 'if false' The goal here is to make it easier for a human to examine the SSA when a function contains lots of dead code. No significant compiler metric or generated code differences. Change-Id: I81915fa4639bc8820cc9a5e45e526687d0d1f57a Reviewed-on: https://go-review.googlesource.com/c/go/+/221791 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-02 13:51:20 -08:00
}
break
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
bEnd := s.f.NewBlock(ssa.BlockPlain)
cmd/compile: make node.Likely a flag node.Likely may once have held -1/0/+1, but it is now only 0/1. With improved SSA heuristics, it may someday go away entirely. Change-Id: I6451d17fd7fb47e67fea4d39df302b6db00ea57b Reviewed-on: https://go-review.googlesource.com/41760 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-25 08:46:00 -07:00
var likely int8
if n.Likely() {
likely = 1
}
cmd/compile: fix ordering for short-circuiting ops Make sure the side effects inside short-circuited operations (&& and ||) happen correctly. Before this CL, we attached the side effects to the node itself using exprInPlace. That caused other side effects in sibling expressions to get reordered with respect to the short circuit side effect. Instead, rewrite a && b like: r := a if r { r = b } That code we can keep correctly ordered with respect to other side-effects extracted from part of a big expression. exprInPlace seems generally unsafe. But this was the only case where exprInPlace is called not at the top level of an expression, so I don't think the other uses can actually trigger an issue (there can't be a sibling expression). TODO: maybe those cases don't need "in place", and we can retire that function generally. This CL needed a small tweak to the SSA generation of OIF so that the short circuit optimization still triggers. The short circuit optimization looks for triangle but not diamonds, so don't bother allocating a block if it will be empty. Go 1 benchmarks are in the noise. Fixes #30566 Change-Id: I19c04296bea63cbd6ad05f87a63b005029123610 Reviewed-on: https://go-review.googlesource.com/c/go/+/165617 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-05 17:42:48 -08:00
var bThen *ssa.Block
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Body().Len() != 0 {
cmd/compile: fix ordering for short-circuiting ops Make sure the side effects inside short-circuited operations (&& and ||) happen correctly. Before this CL, we attached the side effects to the node itself using exprInPlace. That caused other side effects in sibling expressions to get reordered with respect to the short circuit side effect. Instead, rewrite a && b like: r := a if r { r = b } That code we can keep correctly ordered with respect to other side-effects extracted from part of a big expression. exprInPlace seems generally unsafe. But this was the only case where exprInPlace is called not at the top level of an expression, so I don't think the other uses can actually trigger an issue (there can't be a sibling expression). TODO: maybe those cases don't need "in place", and we can retire that function generally. This CL needed a small tweak to the SSA generation of OIF so that the short circuit optimization still triggers. The short circuit optimization looks for triangle but not diamonds, so don't bother allocating a block if it will be empty. Go 1 benchmarks are in the noise. Fixes #30566 Change-Id: I19c04296bea63cbd6ad05f87a63b005029123610 Reviewed-on: https://go-review.googlesource.com/c/go/+/165617 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-05 17:42:48 -08:00
bThen = s.f.NewBlock(ssa.BlockPlain)
} else {
bThen = bEnd
}
var bElse *ssa.Block
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Rlist().Len() != 0 {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
bElse = s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
} else {
cmd/compile: fix ordering for short-circuiting ops Make sure the side effects inside short-circuited operations (&& and ||) happen correctly. Before this CL, we attached the side effects to the node itself using exprInPlace. That caused other side effects in sibling expressions to get reordered with respect to the short circuit side effect. Instead, rewrite a && b like: r := a if r { r = b } That code we can keep correctly ordered with respect to other side-effects extracted from part of a big expression. exprInPlace seems generally unsafe. But this was the only case where exprInPlace is called not at the top level of an expression, so I don't think the other uses can actually trigger an issue (there can't be a sibling expression). TODO: maybe those cases don't need "in place", and we can retire that function generally. This CL needed a small tweak to the SSA generation of OIF so that the short circuit optimization still triggers. The short circuit optimization looks for triangle but not diamonds, so don't bother allocating a block if it will be empty. Go 1 benchmarks are in the noise. Fixes #30566 Change-Id: I19c04296bea63cbd6ad05f87a63b005029123610 Reviewed-on: https://go-review.googlesource.com/c/go/+/165617 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-05 17:42:48 -08:00
bElse = bEnd
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.condBranch(n.Left(), bThen, bElse, likely)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Body().Len() != 0 {
cmd/compile: fix ordering for short-circuiting ops Make sure the side effects inside short-circuited operations (&& and ||) happen correctly. Before this CL, we attached the side effects to the node itself using exprInPlace. That caused other side effects in sibling expressions to get reordered with respect to the short circuit side effect. Instead, rewrite a && b like: r := a if r { r = b } That code we can keep correctly ordered with respect to other side-effects extracted from part of a big expression. exprInPlace seems generally unsafe. But this was the only case where exprInPlace is called not at the top level of an expression, so I don't think the other uses can actually trigger an issue (there can't be a sibling expression). TODO: maybe those cases don't need "in place", and we can retire that function generally. This CL needed a small tweak to the SSA generation of OIF so that the short circuit optimization still triggers. The short circuit optimization looks for triangle but not diamonds, so don't bother allocating a block if it will be empty. Go 1 benchmarks are in the noise. Fixes #30566 Change-Id: I19c04296bea63cbd6ad05f87a63b005029123610 Reviewed-on: https://go-review.googlesource.com/c/go/+/165617 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-05 17:42:48 -08:00
s.startBlock(bThen)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Body())
cmd/compile: fix ordering for short-circuiting ops Make sure the side effects inside short-circuited operations (&& and ||) happen correctly. Before this CL, we attached the side effects to the node itself using exprInPlace. That caused other side effects in sibling expressions to get reordered with respect to the short circuit side effect. Instead, rewrite a && b like: r := a if r { r = b } That code we can keep correctly ordered with respect to other side-effects extracted from part of a big expression. exprInPlace seems generally unsafe. But this was the only case where exprInPlace is called not at the top level of an expression, so I don't think the other uses can actually trigger an issue (there can't be a sibling expression). TODO: maybe those cases don't need "in place", and we can retire that function generally. This CL needed a small tweak to the SSA generation of OIF so that the short circuit optimization still triggers. The short circuit optimization looks for triangle but not diamonds, so don't bother allocating a block if it will be empty. Go 1 benchmarks are in the noise. Fixes #30566 Change-Id: I19c04296bea63cbd6ad05f87a63b005029123610 Reviewed-on: https://go-review.googlesource.com/c/go/+/165617 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-05 17:42:48 -08:00
if b := s.endBlock(); b != nil {
b.AddEdgeTo(bEnd)
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Rlist().Len() != 0 {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
s.startBlock(bElse)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Rlist())
[dev.ssa] cmd/compile: minor cleanup Change-Id: Ib33f3b1cfa09f410675d275e214d8ddc246c53c3 Reviewed-on: https://go-review.googlesource.com/12548 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 18:42:45 -07:00
if b := s.endBlock(); b != nil {
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bEnd)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
}
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ORETURN:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
b := s.exit()
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
b.Pos = s.lastPos.WithIsStmt()
cmd/compile: adjust Pos setting for "empty" blocks Plain blocks that contain only uninteresting instructions (that do not have reliable Pos information themselves) need to have their Pos left unset so that they can inherit it from their successors. The "uninteresting" test was not properly applied and not properly defined. OpFwdRef does not appear in the ssa.html debugging output, but at the time of the test these instructions did appear, and it needs to be part of the test. Fixes #22365. Change-Id: I99e5b271acd8f6bcfe0f72395f905c7744ea9a02 Reviewed-on: https://go-review.googlesource.com/74252 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-29 11:53:18 -04:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ORETJMP:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
b := s.exit()
b.Kind = ssa.BlockRetJmp // override BlockRet
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
b.Aux = n.Sym().Linksym()
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONTINUE, ir.OBREAK:
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
var to *ssa.Block
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Sym() == nil {
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// plain break/continue
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONTINUE:
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
to = s.continueTo
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OBREAK:
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
to = s.breakTo
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
}
} else {
// labeled break/continue; look up the target
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym := n.Sym()
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab := s.label(sym)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONTINUE:
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
to = lab.continueTarget
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OBREAK:
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
to = lab.breakTarget
}
}
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
b := s.endBlock()
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
b.Pos = s.lastPos.WithIsStmt() // Do this even if b is an empty block.
cmd/compile: check labels and gotos before building SSA This CL introduces yet another compiler pass, which checks for correct control flow constructs prior to converting from AST to SSA form. It cannot be integrated with walk, since walk rewrites switch and select statements on the fly. To reduce code duplication, this CL also does some minor refactoring. With this pass in place, the AST to SSA converter can now stop generating SSA for any known-dead code. This minor savings pays for the minor cost of the new pass. Performance is almost a wash: name old time/op new time/op delta Template 206ms ± 4% 205ms ± 4% ~ (p=0.108 n=43+43) Unicode 84.0ms ± 4% 84.0ms ± 4% ~ (p=0.979 n=43+43) GoTypes 550ms ± 3% 553ms ± 3% ~ (p=0.065 n=40+41) Compiler 2.57s ± 4% 2.58s ± 2% ~ (p=0.103 n=44+41) SSA 3.94s ± 3% 3.93s ± 2% ~ (p=0.833 n=44+42) Flate 126ms ± 6% 125ms ± 4% ~ (p=0.941 n=43+39) GoParser 147ms ± 4% 148ms ± 3% ~ (p=0.164 n=42+39) Reflect 359ms ± 3% 357ms ± 5% ~ (p=0.241 n=43+44) Tar 106ms ± 5% 106ms ± 7% ~ (p=0.853 n=40+43) XML 202ms ± 3% 203ms ± 3% ~ (p=0.488 n=42+41) name old user-ns/op new user-ns/op delta Template 240M ± 4% 239M ± 4% ~ (p=0.844 n=42+43) Unicode 107M ± 5% 107M ± 4% ~ (p=0.332 n=40+43) GoTypes 735M ± 3% 731M ± 4% ~ (p=0.141 n=43+44) Compiler 3.51G ± 3% 3.52G ± 3% ~ (p=0.208 n=42+43) SSA 5.72G ± 4% 5.72G ± 3% ~ (p=0.928 n=44+42) Flate 151M ± 7% 150M ± 8% ~ (p=0.662 n=44+43) GoParser 181M ± 5% 181M ± 4% ~ (p=0.379 n=41+44) Reflect 447M ± 4% 445M ± 4% ~ (p=0.344 n=43+43) Tar 125M ± 7% 124M ± 6% ~ (p=0.353 n=43+43) XML 248M ± 4% 250M ± 6% ~ (p=0.158 n=44+44) name old alloc/op new alloc/op delta Template 40.3MB ± 0% 40.2MB ± 0% -0.27% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.10% (p=0.015 n=10+10) GoTypes 114MB ± 0% 114MB ± 0% -0.06% (p=0.000 n=7+9) Compiler 480MB ± 0% 481MB ± 0% +0.07% (p=0.000 n=10+10) SSA 864MB ± 0% 862MB ± 0% -0.25% (p=0.000 n=9+10) Flate 25.9MB ± 0% 25.9MB ± 0% ~ (p=0.123 n=10+10) GoParser 32.1MB ± 0% 32.1MB ± 0% ~ (p=0.631 n=10+10) Reflect 79.9MB ± 0% 79.6MB ± 0% -0.39% (p=0.000 n=10+9) Tar 27.1MB ± 0% 27.0MB ± 0% -0.18% (p=0.003 n=10+10) XML 42.6MB ± 0% 42.6MB ± 0% ~ (p=0.143 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 0% 401k ± 1% ~ (p=0.353 n=10+10) Unicode 322k ± 0% 322k ± 0% ~ (p=0.739 n=10+10) GoTypes 1.18M ± 0% 1.18M ± 0% +0.25% (p=0.001 n=7+8) Compiler 4.51M ± 0% 4.53M ± 0% +0.37% (p=0.000 n=10+10) SSA 7.91M ± 0% 7.93M ± 0% +0.20% (p=0.000 n=9+10) Flate 244k ± 0% 245k ± 0% ~ (p=0.123 n=10+10) GoParser 323k ± 1% 324k ± 1% +0.40% (p=0.035 n=10+10) Reflect 1.01M ± 0% 1.02M ± 0% +0.37% (p=0.000 n=10+9) Tar 258k ± 1% 258k ± 1% ~ (p=0.661 n=10+9) XML 403k ± 0% 405k ± 0% +0.47% (p=0.004 n=10+10) Updates #15756 Updates #19250 Change-Id: I647bfbb745c35630447eb79dfcaa994b490ce942 Reviewed-on: https://go-review.googlesource.com/38159 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-14 11:05:03 -07:00
b.AddEdgeTo(to)
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OFOR, ir.OFORUNTIL:
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
// OFOR: for Ninit; Left; Right { Nbody }
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
// cond (Left); body (Nbody); incr (Right)
//
// OFORUNTIL: for Ninit; Left; Right; List { Nbody }
// => body: { Nbody }; incr: Right; if Left { lateincr: List; goto body }; end:
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
bCond := s.f.NewBlock(ssa.BlockPlain)
bBody := s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
bIncr := s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
bEnd := s.f.NewBlock(ssa.BlockPlain)
cmd/compile/internal/ssa: set OFOR bBody.Pos to AST Pos Assign SSA OFOR's bBody.Pos to AST (*Node).Pos as it is created. An empty for loop has no other information which may be used to give correct position information in the resulting executable. Such a for loop may compile to a single `JMP *self` and it is important that the location of this is in the right place. Fixes #30167. Change-Id: Iec44f0281c462c33fac6b7b8ccfc2ef37434c247 Reviewed-on: https://go-review.googlesource.com/c/go/+/163019 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-18 11:09:03 +00:00
// ensure empty for loops have correct position; issue #30167
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
bBody.Pos = n.Pos()
cmd/compile/internal/ssa: set OFOR bBody.Pos to AST Pos Assign SSA OFOR's bBody.Pos to AST (*Node).Pos as it is created. An empty for loop has no other information which may be used to give correct position information in the resulting executable. Such a for loop may compile to a single `JMP *self` and it is important that the location of this is in the right place. Fixes #30167. Change-Id: Iec44f0281c462c33fac6b7b8ccfc2ef37434c247 Reviewed-on: https://go-review.googlesource.com/c/go/+/163019 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-18 11:09:03 +00:00
cmd/compile: check loop rescheduling with stack bound, not counter After benchmarking with a compiler modified to have better spill location, it became clear that this method of checking was actually faster on (at least) two different architectures (ppc64 and amd64) and it also provides more timely interruption of loops. This change adds a modified FOR loop node "FORUNTIL" that checks after executing the loop body instead of before (i.e., always at least once). This ensures that a pointer past the end of a slice or array is not made visible to the garbage collector. Without the rescheduling checks inserted, the restructured loop from this change apparently provides a 1% geomean improvement on PPC64 running the go1 benchmarks; the improvement on AMD64 is only 0.12%. Inserting the rescheduling check exposed some peculiar bug with the ssa test code for s390x; this was updated based on initial code actually generated for GOARCH=s390x to use appropriate OpArg, OpAddr, and OpVarDef. NaCl is disabled in testing. Change-Id: Ieafaa9a61d2a583ad00968110ef3e7a441abca50 Reviewed-on: https://go-review.googlesource.com/36206 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-02-02 11:53:41 -05:00
// first, jump to condition test (OFOR) or body (OFORUNTIL)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
b := s.endBlock()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OFOR {
cmd/compile: check loop rescheduling with stack bound, not counter After benchmarking with a compiler modified to have better spill location, it became clear that this method of checking was actually faster on (at least) two different architectures (ppc64 and amd64) and it also provides more timely interruption of loops. This change adds a modified FOR loop node "FORUNTIL" that checks after executing the loop body instead of before (i.e., always at least once). This ensures that a pointer past the end of a slice or array is not made visible to the garbage collector. Without the rescheduling checks inserted, the restructured loop from this change apparently provides a 1% geomean improvement on PPC64 running the go1 benchmarks; the improvement on AMD64 is only 0.12%. Inserting the rescheduling check exposed some peculiar bug with the ssa test code for s390x; this was updated based on initial code actually generated for GOARCH=s390x to use appropriate OpArg, OpAddr, and OpVarDef. NaCl is disabled in testing. Change-Id: Ieafaa9a61d2a583ad00968110ef3e7a441abca50 Reviewed-on: https://go-review.googlesource.com/36206 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-02-02 11:53:41 -05:00
b.AddEdgeTo(bCond)
// generate code to test condition
s.startBlock(bCond)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left() != nil {
s.condBranch(n.Left(), bBody, bEnd, 1)
cmd/compile: check loop rescheduling with stack bound, not counter After benchmarking with a compiler modified to have better spill location, it became clear that this method of checking was actually faster on (at least) two different architectures (ppc64 and amd64) and it also provides more timely interruption of loops. This change adds a modified FOR loop node "FORUNTIL" that checks after executing the loop body instead of before (i.e., always at least once). This ensures that a pointer past the end of a slice or array is not made visible to the garbage collector. Without the rescheduling checks inserted, the restructured loop from this change apparently provides a 1% geomean improvement on PPC64 running the go1 benchmarks; the improvement on AMD64 is only 0.12%. Inserting the rescheduling check exposed some peculiar bug with the ssa test code for s390x; this was updated based on initial code actually generated for GOARCH=s390x to use appropriate OpArg, OpAddr, and OpVarDef. NaCl is disabled in testing. Change-Id: Ieafaa9a61d2a583ad00968110ef3e7a441abca50 Reviewed-on: https://go-review.googlesource.com/36206 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-02-02 11:53:41 -05:00
} else {
b := s.endBlock()
b.Kind = ssa.BlockPlain
b.AddEdgeTo(bBody)
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
} else {
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
b.AddEdgeTo(bBody)
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// set up for continue/break in body
prevContinue := s.continueTo
prevBreak := s.breakTo
s.continueTo = bIncr
s.breakTo = bEnd
[dev.regabi] cmd/compile: cleanup label handling - The use of a label's Name.Defn to point at the named for/select/switch means that any rewrite of the for/select/switch must overwrite the original or else the pointer will dangle. Remove that pointer by adding the label name directly to the for/select/switch representation instead. - The only uses of a label's Sym.Label were ephemeral values during markbreak and escape analysis. Use a map for each. Although in general we are not going to replace all computed fields with maps (too slow), the one in markbreak is only for labeled for/select/switch, and the one in escape is for all labels, but even so, labels are fairly rare. In theory this cleanup should make it easy to allow labeled for/select/switch in inlined bodies, but this CL does not attempt that. It's only concerned with cleanup to enable a new Node representation. Passes buildall w/ toolstash -cmp. Change-Id: I7e36ee98d2ea40dbae94e6722d585f007b7afcfa Reviewed-on: https://go-review.googlesource.com/c/go/+/274086 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-27 23:52:37 -05:00
var lab *ssaLabel
if sym := n.Sym(); sym != nil {
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// labeled for loop
[dev.regabi] cmd/compile: cleanup label handling - The use of a label's Name.Defn to point at the named for/select/switch means that any rewrite of the for/select/switch must overwrite the original or else the pointer will dangle. Remove that pointer by adding the label name directly to the for/select/switch representation instead. - The only uses of a label's Sym.Label were ephemeral values during markbreak and escape analysis. Use a map for each. Although in general we are not going to replace all computed fields with maps (too slow), the one in markbreak is only for labeled for/select/switch, and the one in escape is for all labels, but even so, labels are fairly rare. In theory this cleanup should make it easy to allow labeled for/select/switch in inlined bodies, but this CL does not attempt that. It's only concerned with cleanup to enable a new Node representation. Passes buildall w/ toolstash -cmp. Change-Id: I7e36ee98d2ea40dbae94e6722d585f007b7afcfa Reviewed-on: https://go-review.googlesource.com/c/go/+/274086 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-27 23:52:37 -05:00
lab = s.label(sym)
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab.continueTarget = bIncr
lab.breakTarget = bEnd
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// generate body
s.startBlock(bBody)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Body())
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// tear down continue/break
s.continueTo = prevContinue
s.breakTo = prevBreak
if lab != nil {
lab.continueTarget = nil
lab.breakTarget = nil
}
// done with body, goto incr
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
if b := s.endBlock(); b != nil {
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bIncr)
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
}
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
// generate incr (and, for OFORUNTIL, condition)
[dev.ssa] cmd/compile/ssa: place for loop incr in a separate block This is a prerequisite for implementing break and continue; blocks ending in break or continue need to have the increment block as a successor. While we're here, implement for loops with no condition. Change-Id: I85d8ba020628d805bfd0bd583dfd16e1be6f6fae Reviewed-on: https://go-review.googlesource.com/11941 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-06 15:29:39 -07:00
s.startBlock(bIncr)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Right() != nil {
s.stmt(n.Right())
[dev.ssa] cmd/compile/ssa: add comparison ops Increase SSA coverage of functions in the standard library from 20.79% to 27.81%. The most significant unimplemented items are now: 10.16% 2597 SSA unimplemented: zero for type error not implemented 8.44% 2157 SSA unimplemented: addr: bad op DOTPTR 7.98% 2039 SSA unimplemented: unhandled OLITERAL 7 6.29% 1607 SSA unimplemented: unhandled expr OROR 4.73% 1209 SSA unimplemented: unhandled expr LEN 4.55% 1163 SSA unimplemented: unhandled expr LROT 3.42% 874 SSA unimplemented: unhandled OLITERAL 6 2.46% 629 SSA unimplemented: unhandled expr DOT 2.41% 615 SSA unimplemented: zero for type []byte not implemented 2.02% 516 SSA unimplemented: unhandled stmt CALLMETH 1.90% 486 SSA unimplemented: unhandled expr ANDAND 1.79% 458 SSA unimplemented: unhandled expr CALLINTER 1.69% 433 SSA unimplemented: unhandled stmt SWITCH 1.67% 428 SSA unimplemented: unhandled expr CALLMETH 1.67% 426 SSA unimplemented: unhandled expr CLOSUREVAR Change-Id: I40959b22993c4f70784b4eca472cae752347879c Reviewed-on: https://go-review.googlesource.com/11452 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-24 17:48:22 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OFOR {
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
if b := s.endBlock(); b != nil {
b.AddEdgeTo(bCond)
// It can happen that bIncr ends in a block containing only VARKILL,
// and that muddles the debugging experience.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() != ir.OFORUNTIL && b.Pos == src.NoXPos {
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
b.Pos = bCond.Pos
}
cmd/compile: check loop rescheduling with stack bound, not counter After benchmarking with a compiler modified to have better spill location, it became clear that this method of checking was actually faster on (at least) two different architectures (ppc64 and amd64) and it also provides more timely interruption of loops. This change adds a modified FOR loop node "FORUNTIL" that checks after executing the loop body instead of before (i.e., always at least once). This ensures that a pointer past the end of a slice or array is not made visible to the garbage collector. Without the rescheduling checks inserted, the restructured loop from this change apparently provides a 1% geomean improvement on PPC64 running the go1 benchmarks; the improvement on AMD64 is only 0.12%. Inserting the rescheduling check exposed some peculiar bug with the ssa test code for s390x; this was updated based on initial code actually generated for GOARCH=s390x to use appropriate OpArg, OpAddr, and OpVarDef. NaCl is disabled in testing. Change-Id: Ieafaa9a61d2a583ad00968110ef3e7a441abca50 Reviewed-on: https://go-review.googlesource.com/36206 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-02-02 11:53:41 -05:00
}
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
} else {
// bCond is unused in OFORUNTIL, so repurpose it.
bLateIncr := bCond
// test condition
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.condBranch(n.Left(), bLateIncr, bEnd, 1)
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
// generate late increment
s.startBlock(bLateIncr)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
cmd/compile: don't produce a past-the-end pointer in range loops Currently, range loops over slices and arrays are compiled roughly like: for i, x := range s { b } ⇓ for i, _n, _p := 0, len(s), &s[0]; i < _n; i, _p = i+1, _p + unsafe.Sizeof(s[0]) { b } ⇓ i, _n, _p := 0, len(s), &s[0] goto cond body: { b } i, _p = i+1, _p + unsafe.Sizeof(s[0]) cond: if i < _n { goto body } else { goto end } end: The problem with this lowering is that _p may temporarily point past the end of the allocation the moment before the loop terminates. Right now this isn't a problem because there's never a safe-point during this brief moment. We're about to introduce safe-points everywhere, so this bad pointer is going to be a problem. We could mark the increment as an unsafe block, but this inhibits reordering opportunities and could result in infrequent safe-points if the body is short. Instead, this CL fixes this by changing how we compile range loops to never produce this past-the-end pointer. It changes the lowering to roughly: i, _n, _p := 0, len(s), &s[0] if i < _n { goto body } else { goto end } top: _p += unsafe.Sizeof(s[0]) body: { b } i++ if i < _n { goto top } else { goto end } end: Notably, the increment is split into two parts: we increment the index before checking the condition, but increment the pointer only *after* the condition check has succeeded. The implementation builds on the OFORUNTIL construct that was introduced during the loop preemption experiments, since OFORUNTIL places the increment and condition after the loop body. To support the extra "late increment" step, we further define OFORUNTIL's "List" field to contain the late increment statements. This makes all of this a relatively small change. This depends on the improvements to the prove pass in CL 102603. With the current lowering, bounds-check elimination knows that i < _n in the body because the body block is dominated by the cond block. In the new lowering, deriving this fact requires detecting that i < _n on *both* paths into body and hence is true in body. CL 102603 made prove able to detect this. The code size effect of this is minimal. The cmd/go binary on linux/amd64 increases by 0.17%. Performance-wise, this actually appears to be a net win, though it's mostly noise: name old time/op new time/op delta BinaryTree17-12 2.80s ± 0% 2.61s ± 1% -6.88% (p=0.000 n=20+18) Fannkuch11-12 2.41s ± 0% 2.42s ± 0% +0.05% (p=0.005 n=20+20) FmtFprintfEmpty-12 41.6ns ± 5% 41.4ns ± 6% ~ (p=0.765 n=20+19) FmtFprintfString-12 69.4ns ± 3% 69.3ns ± 1% ~ (p=0.084 n=19+17) FmtFprintfInt-12 76.1ns ± 1% 77.3ns ± 1% +1.57% (p=0.000 n=19+19) FmtFprintfIntInt-12 122ns ± 2% 123ns ± 3% +0.95% (p=0.015 n=20+20) FmtFprintfPrefixedInt-12 153ns ± 2% 151ns ± 3% -1.27% (p=0.013 n=20+20) FmtFprintfFloat-12 215ns ± 0% 216ns ± 0% +0.47% (p=0.000 n=20+16) FmtManyArgs-12 486ns ± 1% 498ns ± 0% +2.40% (p=0.000 n=20+17) GobDecode-12 6.43ms ± 0% 6.50ms ± 0% +1.08% (p=0.000 n=18+19) GobEncode-12 5.43ms ± 1% 5.47ms ± 0% +0.76% (p=0.000 n=20+20) Gzip-12 218ms ± 1% 218ms ± 1% ~ (p=0.883 n=20+20) Gunzip-12 38.8ms ± 0% 38.9ms ± 0% ~ (p=0.644 n=19+19) HTTPClientServer-12 76.2µs ± 1% 76.4µs ± 2% ~ (p=0.218 n=20+20) JSONEncode-12 12.2ms ± 0% 12.3ms ± 1% +0.45% (p=0.000 n=19+19) JSONDecode-12 54.2ms ± 1% 53.3ms ± 0% -1.67% (p=0.000 n=20+20) Mandelbrot200-12 3.71ms ± 0% 3.71ms ± 0% ~ (p=0.143 n=19+20) GoParse-12 3.22ms ± 0% 3.19ms ± 1% -0.72% (p=0.000 n=20+20) RegexpMatchEasy0_32-12 76.7ns ± 1% 75.8ns ± 1% -1.19% (p=0.000 n=20+17) RegexpMatchEasy0_1K-12 245ns ± 1% 243ns ± 0% -0.72% (p=0.000 n=18+17) RegexpMatchEasy1_32-12 71.9ns ± 0% 71.7ns ± 1% -0.39% (p=0.006 n=12+18) RegexpMatchEasy1_1K-12 358ns ± 1% 354ns ± 1% -1.13% (p=0.000 n=20+19) RegexpMatchMedium_32-12 105ns ± 2% 105ns ± 1% -0.63% (p=0.007 n=19+20) RegexpMatchMedium_1K-12 31.9µs ± 1% 31.9µs ± 1% ~ (p=1.000 n=17+17) RegexpMatchHard_32-12 1.51µs ± 1% 1.52µs ± 2% +0.46% (p=0.042 n=18+18) RegexpMatchHard_1K-12 45.3µs ± 1% 45.5µs ± 2% +0.44% (p=0.029 n=18+19) Revcomp-12 388ms ± 1% 385ms ± 0% -0.57% (p=0.000 n=19+18) Template-12 63.0ms ± 1% 63.3ms ± 0% +0.50% (p=0.000 n=19+20) TimeParse-12 309ns ± 1% 307ns ± 0% -0.62% (p=0.000 n=20+20) TimeFormat-12 328ns ± 0% 333ns ± 0% +1.35% (p=0.000 n=19+19) [Geo mean] 47.0µs 46.9µs -0.20% (https://perf.golang.org/search?q=upload:20180326.1) For #10958. For #24543. Change-Id: Icbd52e711fdbe7938a1fea3e6baca1104b53ac3a Reviewed-on: https://go-review.googlesource.com/102604 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-03-22 12:04:51 -04:00
s.endBlock().AddEdgeTo(bBody)
cmd/compile: check loop rescheduling with stack bound, not counter After benchmarking with a compiler modified to have better spill location, it became clear that this method of checking was actually faster on (at least) two different architectures (ppc64 and amd64) and it also provides more timely interruption of loops. This change adds a modified FOR loop node "FORUNTIL" that checks after executing the loop body instead of before (i.e., always at least once). This ensures that a pointer past the end of a slice or array is not made visible to the garbage collector. Without the rescheduling checks inserted, the restructured loop from this change apparently provides a 1% geomean improvement on PPC64 running the go1 benchmarks; the improvement on AMD64 is only 0.12%. Inserting the rescheduling check exposed some peculiar bug with the ssa test code for s390x; this was updated based on initial code actually generated for GOARCH=s390x to use appropriate OpArg, OpAddr, and OpVarDef. NaCl is disabled in testing. Change-Id: Ieafaa9a61d2a583ad00968110ef3e7a441abca50 Reviewed-on: https://go-review.googlesource.com/36206 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-02-02 11:53:41 -05:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSWITCH, ir.OSELECT:
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// These have been mostly rewritten by the front end into their Nbody fields.
// Our main task is to correctly hook up any break statements.
bEnd := s.f.NewBlock(ssa.BlockPlain)
prevBreak := s.breakTo
s.breakTo = bEnd
[dev.regabi] cmd/compile: cleanup label handling - The use of a label's Name.Defn to point at the named for/select/switch means that any rewrite of the for/select/switch must overwrite the original or else the pointer will dangle. Remove that pointer by adding the label name directly to the for/select/switch representation instead. - The only uses of a label's Sym.Label were ephemeral values during markbreak and escape analysis. Use a map for each. Although in general we are not going to replace all computed fields with maps (too slow), the one in markbreak is only for labeled for/select/switch, and the one in escape is for all labels, but even so, labels are fairly rare. In theory this cleanup should make it easy to allow labeled for/select/switch in inlined bodies, but this CL does not attempt that. It's only concerned with cleanup to enable a new Node representation. Passes buildall w/ toolstash -cmp. Change-Id: I7e36ee98d2ea40dbae94e6722d585f007b7afcfa Reviewed-on: https://go-review.googlesource.com/c/go/+/274086 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-27 23:52:37 -05:00
var lab *ssaLabel
if sym := n.Sym(); sym != nil {
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
// labeled
[dev.regabi] cmd/compile: cleanup label handling - The use of a label's Name.Defn to point at the named for/select/switch means that any rewrite of the for/select/switch must overwrite the original or else the pointer will dangle. Remove that pointer by adding the label name directly to the for/select/switch representation instead. - The only uses of a label's Sym.Label were ephemeral values during markbreak and escape analysis. Use a map for each. Although in general we are not going to replace all computed fields with maps (too slow), the one in markbreak is only for labeled for/select/switch, and the one in escape is for all labels, but even so, labels are fairly rare. In theory this cleanup should make it easy to allow labeled for/select/switch in inlined bodies, but this CL does not attempt that. It's only concerned with cleanup to enable a new Node representation. Passes buildall w/ toolstash -cmp. Change-Id: I7e36ee98d2ea40dbae94e6722d585f007b7afcfa Reviewed-on: https://go-review.googlesource.com/c/go/+/274086 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-27 23:52:37 -05:00
lab = s.label(sym)
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
lab.breakTarget = bEnd
}
// generate body code
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Body())
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
s.breakTo = prevBreak
if lab != nil {
lab.breakTarget = nil
}
cmd/compile, runtime: simplify multiway select implementation This commit reworks multiway select statements to use normal control flow primitives instead of the previous setjmp/longjmp-like behavior. This simplifies liveness analysis and should prevent issues around "returns twice" function calls within SSA passes. test/live.go is updated because liveness analysis's CFG is more representative of actual control flow. The case bodies are the only real successors of the selectgo call, but previously the selectsend, selectrecv, etc. calls were included in the successors list too. Updates #19331. Change-Id: I7f879b103a4b85e62fc36a270d812f54c0aa3e83 Reviewed-on: https://go-review.googlesource.com/37661 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-01 15:50:57 -08:00
// walk adds explicit OBREAK nodes to the end of all reachable code paths.
// If we still have a current block here, then mark it unreachable.
if s.curBlock != nil {
m := s.mem()
b := s.endBlock()
b.Kind = ssa.BlockExit
b.SetControl(m)
[dev.ssa] cmd/compile: implement control flow handling Add label and goto checks and improve test coverage. Implement OSWITCH and OSELECT. Implement OBREAK and OCONTINUE. Allow generation of code in dead blocks. Change-Id: Ibebb7c98b4b2344f46d38db7c9dce058c56beaac Reviewed-on: https://go-review.googlesource.com/12445 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-20 15:39:14 -07:00
}
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OVARDEF:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !s.canSSA(n.Left()) {
s.vars[memVar] = s.newValue1Apos(ssa.OpVarDef, types.TypeMem, n.Left(), s.mem(), false)
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OVARKILL:
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
// Insert a varkill op to record that a variable is no longer live.
// We only care about liveness info at call sites, so putting the
// varkill in the store chain is enough to keep it correctly ordered
// with respect to call ops.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !s.canSSA(n.Left()) {
s.vars[memVar] = s.newValue1Apos(ssa.OpVarKill, types.TypeMem, n.Left(), s.mem(), false)
[dev.ssa] cmd/compile: Use varkill only for non-SSAable vars For variables which get SSA'd, SSA keeps track of all the def/kill. It is only for on-stack variables that we need them. This reduces stack frame sizes significantly because often the only use of a variable was a varkill, and without that last use the variable doesn't get allocated in the frame at all. Fixes #12602 Change-Id: I3f00a768aa5ddd8d7772f375b25f846086a3e689 Reviewed-on: https://go-review.googlesource.com/14758 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-19 12:01:39 -07:00
}
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OVARLIVE:
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Semi-regular merge from tip to dev.ssa. Conflicts: src/runtime/sys_windows_amd64.s Change-Id: I5f733130049c810e6ceacd46dad85faebca52b29
2016-01-19 09:59:21 -08:00
// Insert a varlive op to record that a variable is still live.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !n.Left().Name().Addrtaken() {
s.Fatalf("VARLIVE variable %v must have Addrtaken set", n.Left())
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Semi-regular merge from tip to dev.ssa. Conflicts: src/runtime/sys_windows_amd64.s Change-Id: I5f733130049c810e6ceacd46dad85faebca52b29
2016-01-19 09:59:21 -08:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Left().Class() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PAUTO, ir.PPARAM, ir.PPARAMOUT:
cmd/compile: eliminate stores to unread auto variables This is a crude compiler pass to eliminate stores to auto variables that are only ever written to. Eliminates an unnecessary store to x from the following code: func f() int { var x := 1 return *(&x) } Fixes #19765. Change-Id: If2c63a8ae67b8c590b6e0cc98a9610939a3eeffa Reviewed-on: https://go-review.googlesource.com/38746 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-29 14:01:41 -04:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("VARLIVE variable %v must be Auto or Arg", n.Left())
cmd/compile: eliminate stores to unread auto variables This is a crude compiler pass to eliminate stores to auto variables that are only ever written to. Eliminates an unnecessary store to x from the following code: func f() int { var x := 1 return *(&x) } Fixes #19765. Change-Id: If2c63a8ae67b8c590b6e0cc98a9610939a3eeffa Reviewed-on: https://go-review.googlesource.com/38746 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-29 14:01:41 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarLive, types.TypeMem, n.Left(), s.mem())
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Semi-regular merge from tip to dev.ssa. Conflicts: src/runtime/sys_windows_amd64.s Change-Id: I5f733130049c810e6ceacd46dad85faebca52b29
2016-01-19 09:59:21 -08:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCHECKNIL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.expr(n.Left())
[dev.ssa] cmd/compile/internal/ssa: OCHECKNIL is a statement, not an expression Change-Id: I5a683f532a5a0b2bc862d80c871e8dc6721016fc Reviewed-on: https://go-review.googlesource.com/14534 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-12 14:06:44 -07:00
s.nilCheck(p)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OINLMARK:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.newValue1I(ssa.OpInlMark, types.TypeVoid, n.Offset(), s.mem())
cmd/compile,runtime: redo mid-stack inlining tracebacks Work involved in getting a stack trace is divided between runtime.Callers and runtime.CallersFrames. Before this CL, runtime.Callers returns a pc per runtime frame. runtime.CallersFrames is responsible for expanding a runtime frame into potentially multiple user frames. After this CL, runtime.Callers returns a pc per user frame. runtime.CallersFrames just maps those to user frame info. Entries in the result of runtime.Callers are now pcs of the calls (or of the inline marks), not of the instruction just after the call. Fixes #29007 Fixes #28640 Update #26320 Change-Id: I1c9567596ff73dc73271311005097a9188c3406f Reviewed-on: https://go-review.googlesource.com/c/152537 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-12-04 07:58:18 -08:00
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("unhandled stmt %v", n.Op())
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// If true, share as many open-coded defer exits as possible (with the downside of
// worse line-number information)
const shareDeferExits = false
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// exit processes any code that needs to be generated just before returning.
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// It returns a BlockRet block that ends the control flow. Its control value
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// will be set to the final memory state.
func (s *state) exit() *ssa.Block {
cmd/compile: move hasdefer to Func Passes toolstash -cmp. Updates #15756 Change-Id: Ia071dbbd7f2ee0f8433d8c37af4f7b588016244e Reviewed-on: https://go-review.googlesource.com/38231 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-15 22:55:21 -07:00
if s.hasdefer {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if s.hasOpenDefers {
if shareDeferExits && s.lastDeferExit != nil && len(s.openDefers) == s.lastDeferCount {
if s.curBlock.Kind != ssa.BlockPlain {
panic("Block for an exit should be BlockPlain")
}
s.curBlock.AddEdgeTo(s.lastDeferExit)
s.endBlock()
return s.lastDeferFinalBlock
}
s.openDeferExit()
} else {
s.rtcall(Deferreturn, true, nil)
}
cmd/compile: fix defer/deferreturn Make sure we do any just-before-return cleanup on all paths out of a function, including when recovering. Each exit path should include deferreturn (if there are any defers) and then the exit code (e.g. copying heap-escaping return values back to the stack). Introduce a Defer SSA block type which has two outgoing edges - one the fallthrough edge (the defer was queued successfully) and one which immediately returns (the defer had a successful recover() call and normal execution should resume at the return point). Fixes #14725 Change-Id: Iad035c9fd25ef8b7a74dafbd7461cf04833d981f Reviewed-on: https://go-review.googlesource.com/20486 Reviewed-by: David Chase <drchase@google.com>
2016-03-09 19:27:57 -08:00
}
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// Run exit code. Typically, this code copies heap-allocated PPARAMOUT
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// variables back to the stack.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(s.curfn.Func().Exit)
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// Store SSAable PPARAMOUT variables back to stack locations.
for _, n := range s.returns {
cmd/compile: keep pointer input arguments live throughout function Introduce a KeepAlive op which makes sure that its argument is kept live until the KeepAlive. Use KeepAlive to mark pointer input arguments as live after each function call and at each return. We do this change only for pointer arguments. Those are the critical ones to handle because they might have finalizers. Doing compound arguments (slices, structs, ...) is more complicated because we would need to track field liveness individually (we do that for auto variables now, but inputs requires extra trickery). Turn off the automatic marking of args as live. That way, when args are explicitly nulled, plive will know that the original argument is dead. The KeepAlive op will be the eventual implementation of runtime.KeepAlive. Fixes #15277 Change-Id: I5f223e65d99c9f8342c03fbb1512c4d363e903e5 Reviewed-on: https://go-review.googlesource.com/22365 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Russ Cox <rsc@golang.org>
2016-04-21 19:28:28 -07:00
addr := s.decladdrs[n]
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
val := s.variable(n, n.Type())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarDef, types.TypeMem, n, s.mem())
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.store(n.Type(), addr, val)
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// TODO: if val is ever spilled, we'd like to use the
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// PPARAMOUT slot for spilling it. That won't happen
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// currently.
}
// Do actual return.
m := s.mem()
b := s.endBlock()
b.Kind = ssa.BlockRet
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(m)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if s.hasdefer && s.hasOpenDefers {
s.lastDeferFinalBlock = b
}
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
return b
}
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
type opAndType struct {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
op ir.Op
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
etype types.EType
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
var opToSSA = map[opAndType]ssa.Op{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
opAndType{ir.OADD, types.TINT8}: ssa.OpAdd8,
opAndType{ir.OADD, types.TUINT8}: ssa.OpAdd8,
opAndType{ir.OADD, types.TINT16}: ssa.OpAdd16,
opAndType{ir.OADD, types.TUINT16}: ssa.OpAdd16,
opAndType{ir.OADD, types.TINT32}: ssa.OpAdd32,
opAndType{ir.OADD, types.TUINT32}: ssa.OpAdd32,
opAndType{ir.OADD, types.TINT64}: ssa.OpAdd64,
opAndType{ir.OADD, types.TUINT64}: ssa.OpAdd64,
opAndType{ir.OADD, types.TFLOAT32}: ssa.OpAdd32F,
opAndType{ir.OADD, types.TFLOAT64}: ssa.OpAdd64F,
opAndType{ir.OSUB, types.TINT8}: ssa.OpSub8,
opAndType{ir.OSUB, types.TUINT8}: ssa.OpSub8,
opAndType{ir.OSUB, types.TINT16}: ssa.OpSub16,
opAndType{ir.OSUB, types.TUINT16}: ssa.OpSub16,
opAndType{ir.OSUB, types.TINT32}: ssa.OpSub32,
opAndType{ir.OSUB, types.TUINT32}: ssa.OpSub32,
opAndType{ir.OSUB, types.TINT64}: ssa.OpSub64,
opAndType{ir.OSUB, types.TUINT64}: ssa.OpSub64,
opAndType{ir.OSUB, types.TFLOAT32}: ssa.OpSub32F,
opAndType{ir.OSUB, types.TFLOAT64}: ssa.OpSub64F,
opAndType{ir.ONOT, types.TBOOL}: ssa.OpNot,
opAndType{ir.ONEG, types.TINT8}: ssa.OpNeg8,
opAndType{ir.ONEG, types.TUINT8}: ssa.OpNeg8,
opAndType{ir.ONEG, types.TINT16}: ssa.OpNeg16,
opAndType{ir.ONEG, types.TUINT16}: ssa.OpNeg16,
opAndType{ir.ONEG, types.TINT32}: ssa.OpNeg32,
opAndType{ir.ONEG, types.TUINT32}: ssa.OpNeg32,
opAndType{ir.ONEG, types.TINT64}: ssa.OpNeg64,
opAndType{ir.ONEG, types.TUINT64}: ssa.OpNeg64,
opAndType{ir.ONEG, types.TFLOAT32}: ssa.OpNeg32F,
opAndType{ir.ONEG, types.TFLOAT64}: ssa.OpNeg64F,
opAndType{ir.OBITNOT, types.TINT8}: ssa.OpCom8,
opAndType{ir.OBITNOT, types.TUINT8}: ssa.OpCom8,
opAndType{ir.OBITNOT, types.TINT16}: ssa.OpCom16,
opAndType{ir.OBITNOT, types.TUINT16}: ssa.OpCom16,
opAndType{ir.OBITNOT, types.TINT32}: ssa.OpCom32,
opAndType{ir.OBITNOT, types.TUINT32}: ssa.OpCom32,
opAndType{ir.OBITNOT, types.TINT64}: ssa.OpCom64,
opAndType{ir.OBITNOT, types.TUINT64}: ssa.OpCom64,
opAndType{ir.OIMAG, types.TCOMPLEX64}: ssa.OpComplexImag,
opAndType{ir.OIMAG, types.TCOMPLEX128}: ssa.OpComplexImag,
opAndType{ir.OREAL, types.TCOMPLEX64}: ssa.OpComplexReal,
opAndType{ir.OREAL, types.TCOMPLEX128}: ssa.OpComplexReal,
opAndType{ir.OMUL, types.TINT8}: ssa.OpMul8,
opAndType{ir.OMUL, types.TUINT8}: ssa.OpMul8,
opAndType{ir.OMUL, types.TINT16}: ssa.OpMul16,
opAndType{ir.OMUL, types.TUINT16}: ssa.OpMul16,
opAndType{ir.OMUL, types.TINT32}: ssa.OpMul32,
opAndType{ir.OMUL, types.TUINT32}: ssa.OpMul32,
opAndType{ir.OMUL, types.TINT64}: ssa.OpMul64,
opAndType{ir.OMUL, types.TUINT64}: ssa.OpMul64,
opAndType{ir.OMUL, types.TFLOAT32}: ssa.OpMul32F,
opAndType{ir.OMUL, types.TFLOAT64}: ssa.OpMul64F,
opAndType{ir.ODIV, types.TFLOAT32}: ssa.OpDiv32F,
opAndType{ir.ODIV, types.TFLOAT64}: ssa.OpDiv64F,
opAndType{ir.ODIV, types.TINT8}: ssa.OpDiv8,
opAndType{ir.ODIV, types.TUINT8}: ssa.OpDiv8u,
opAndType{ir.ODIV, types.TINT16}: ssa.OpDiv16,
opAndType{ir.ODIV, types.TUINT16}: ssa.OpDiv16u,
opAndType{ir.ODIV, types.TINT32}: ssa.OpDiv32,
opAndType{ir.ODIV, types.TUINT32}: ssa.OpDiv32u,
opAndType{ir.ODIV, types.TINT64}: ssa.OpDiv64,
opAndType{ir.ODIV, types.TUINT64}: ssa.OpDiv64u,
opAndType{ir.OMOD, types.TINT8}: ssa.OpMod8,
opAndType{ir.OMOD, types.TUINT8}: ssa.OpMod8u,
opAndType{ir.OMOD, types.TINT16}: ssa.OpMod16,
opAndType{ir.OMOD, types.TUINT16}: ssa.OpMod16u,
opAndType{ir.OMOD, types.TINT32}: ssa.OpMod32,
opAndType{ir.OMOD, types.TUINT32}: ssa.OpMod32u,
opAndType{ir.OMOD, types.TINT64}: ssa.OpMod64,
opAndType{ir.OMOD, types.TUINT64}: ssa.OpMod64u,
opAndType{ir.OAND, types.TINT8}: ssa.OpAnd8,
opAndType{ir.OAND, types.TUINT8}: ssa.OpAnd8,
opAndType{ir.OAND, types.TINT16}: ssa.OpAnd16,
opAndType{ir.OAND, types.TUINT16}: ssa.OpAnd16,
opAndType{ir.OAND, types.TINT32}: ssa.OpAnd32,
opAndType{ir.OAND, types.TUINT32}: ssa.OpAnd32,
opAndType{ir.OAND, types.TINT64}: ssa.OpAnd64,
opAndType{ir.OAND, types.TUINT64}: ssa.OpAnd64,
opAndType{ir.OOR, types.TINT8}: ssa.OpOr8,
opAndType{ir.OOR, types.TUINT8}: ssa.OpOr8,
opAndType{ir.OOR, types.TINT16}: ssa.OpOr16,
opAndType{ir.OOR, types.TUINT16}: ssa.OpOr16,
opAndType{ir.OOR, types.TINT32}: ssa.OpOr32,
opAndType{ir.OOR, types.TUINT32}: ssa.OpOr32,
opAndType{ir.OOR, types.TINT64}: ssa.OpOr64,
opAndType{ir.OOR, types.TUINT64}: ssa.OpOr64,
opAndType{ir.OXOR, types.TINT8}: ssa.OpXor8,
opAndType{ir.OXOR, types.TUINT8}: ssa.OpXor8,
opAndType{ir.OXOR, types.TINT16}: ssa.OpXor16,
opAndType{ir.OXOR, types.TUINT16}: ssa.OpXor16,
opAndType{ir.OXOR, types.TINT32}: ssa.OpXor32,
opAndType{ir.OXOR, types.TUINT32}: ssa.OpXor32,
opAndType{ir.OXOR, types.TINT64}: ssa.OpXor64,
opAndType{ir.OXOR, types.TUINT64}: ssa.OpXor64,
opAndType{ir.OEQ, types.TBOOL}: ssa.OpEqB,
opAndType{ir.OEQ, types.TINT8}: ssa.OpEq8,
opAndType{ir.OEQ, types.TUINT8}: ssa.OpEq8,
opAndType{ir.OEQ, types.TINT16}: ssa.OpEq16,
opAndType{ir.OEQ, types.TUINT16}: ssa.OpEq16,
opAndType{ir.OEQ, types.TINT32}: ssa.OpEq32,
opAndType{ir.OEQ, types.TUINT32}: ssa.OpEq32,
opAndType{ir.OEQ, types.TINT64}: ssa.OpEq64,
opAndType{ir.OEQ, types.TUINT64}: ssa.OpEq64,
opAndType{ir.OEQ, types.TINTER}: ssa.OpEqInter,
opAndType{ir.OEQ, types.TSLICE}: ssa.OpEqSlice,
opAndType{ir.OEQ, types.TFUNC}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TMAP}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TCHAN}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TPTR}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TUINTPTR}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TUNSAFEPTR}: ssa.OpEqPtr,
opAndType{ir.OEQ, types.TFLOAT64}: ssa.OpEq64F,
opAndType{ir.OEQ, types.TFLOAT32}: ssa.OpEq32F,
opAndType{ir.ONE, types.TBOOL}: ssa.OpNeqB,
opAndType{ir.ONE, types.TINT8}: ssa.OpNeq8,
opAndType{ir.ONE, types.TUINT8}: ssa.OpNeq8,
opAndType{ir.ONE, types.TINT16}: ssa.OpNeq16,
opAndType{ir.ONE, types.TUINT16}: ssa.OpNeq16,
opAndType{ir.ONE, types.TINT32}: ssa.OpNeq32,
opAndType{ir.ONE, types.TUINT32}: ssa.OpNeq32,
opAndType{ir.ONE, types.TINT64}: ssa.OpNeq64,
opAndType{ir.ONE, types.TUINT64}: ssa.OpNeq64,
opAndType{ir.ONE, types.TINTER}: ssa.OpNeqInter,
opAndType{ir.ONE, types.TSLICE}: ssa.OpNeqSlice,
opAndType{ir.ONE, types.TFUNC}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TMAP}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TCHAN}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TPTR}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TUINTPTR}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TUNSAFEPTR}: ssa.OpNeqPtr,
opAndType{ir.ONE, types.TFLOAT64}: ssa.OpNeq64F,
opAndType{ir.ONE, types.TFLOAT32}: ssa.OpNeq32F,
opAndType{ir.OLT, types.TINT8}: ssa.OpLess8,
opAndType{ir.OLT, types.TUINT8}: ssa.OpLess8U,
opAndType{ir.OLT, types.TINT16}: ssa.OpLess16,
opAndType{ir.OLT, types.TUINT16}: ssa.OpLess16U,
opAndType{ir.OLT, types.TINT32}: ssa.OpLess32,
opAndType{ir.OLT, types.TUINT32}: ssa.OpLess32U,
opAndType{ir.OLT, types.TINT64}: ssa.OpLess64,
opAndType{ir.OLT, types.TUINT64}: ssa.OpLess64U,
opAndType{ir.OLT, types.TFLOAT64}: ssa.OpLess64F,
opAndType{ir.OLT, types.TFLOAT32}: ssa.OpLess32F,
opAndType{ir.OLE, types.TINT8}: ssa.OpLeq8,
opAndType{ir.OLE, types.TUINT8}: ssa.OpLeq8U,
opAndType{ir.OLE, types.TINT16}: ssa.OpLeq16,
opAndType{ir.OLE, types.TUINT16}: ssa.OpLeq16U,
opAndType{ir.OLE, types.TINT32}: ssa.OpLeq32,
opAndType{ir.OLE, types.TUINT32}: ssa.OpLeq32U,
opAndType{ir.OLE, types.TINT64}: ssa.OpLeq64,
opAndType{ir.OLE, types.TUINT64}: ssa.OpLeq64U,
opAndType{ir.OLE, types.TFLOAT64}: ssa.OpLeq64F,
opAndType{ir.OLE, types.TFLOAT32}: ssa.OpLeq32F,
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) concreteEtype(t *types.Type) types.EType {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
e := t.Etype
switch e {
default:
return e
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TINT:
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 8 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TINT64
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TINT32
case types.TUINT:
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 8 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TUINT64
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TUINT32
case types.TUINTPTR:
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
if s.config.PtrSize == 8 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TUINT64
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return types.TUINT32
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
func (s *state) ssaOp(op ir.Op, t *types.Type) ssa.Op {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
etype := s.concreteEtype(t)
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
x, ok := opToSSA[opAndType{op, etype}]
if !ok {
cmd/compile: make ssa compilation unconditional Rip out the code that allows SSA to be used conditionally. No longer exists: ssa=0 flag GOSSAHASH GOSSAPKG SSATEST GOSSAFUNC now only controls the printing of the IR/html. Still need to rip out all of the old backend. It should no longer be callable after this CL. Update #16357 Change-Id: Ib30cc18fba6ca52232c41689ba610b0a94aa74f5 Reviewed-on: https://go-review.googlesource.com/29155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-14 10:01:05 -07:00
s.Fatalf("unhandled binary op %v %s", op, etype)
[dev.ssa] cmd/compile/internal/ssa: use width and sign specific opcodes Bake the bit width and signedness into opcodes. Pro: Rewrite rules become easier. Less chance for confusion. Con: Lots more opcodes. Let me know what you think. I'm leaning towards this, but I could be convinced otherwise if people think this is too ugly. Update #11467 Change-Id: Icf1b894268cdf73515877bb123839800d97b9df9 Reviewed-on: https://go-review.googlesource.com/12362 Reviewed-by: Alan Donovan <adonovan@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-19 15:48:20 -07:00
}
return x
[dev.ssa] cmd/compile/ssa: add comparison ops Increase SSA coverage of functions in the standard library from 20.79% to 27.81%. The most significant unimplemented items are now: 10.16% 2597 SSA unimplemented: zero for type error not implemented 8.44% 2157 SSA unimplemented: addr: bad op DOTPTR 7.98% 2039 SSA unimplemented: unhandled OLITERAL 7 6.29% 1607 SSA unimplemented: unhandled expr OROR 4.73% 1209 SSA unimplemented: unhandled expr LEN 4.55% 1163 SSA unimplemented: unhandled expr LROT 3.42% 874 SSA unimplemented: unhandled OLITERAL 6 2.46% 629 SSA unimplemented: unhandled expr DOT 2.41% 615 SSA unimplemented: zero for type []byte not implemented 2.02% 516 SSA unimplemented: unhandled stmt CALLMETH 1.90% 486 SSA unimplemented: unhandled expr ANDAND 1.79% 458 SSA unimplemented: unhandled expr CALLINTER 1.69% 433 SSA unimplemented: unhandled stmt SWITCH 1.67% 428 SSA unimplemented: unhandled expr CALLMETH 1.67% 426 SSA unimplemented: unhandled expr CLOSUREVAR Change-Id: I40959b22993c4f70784b4eca472cae752347879c Reviewed-on: https://go-review.googlesource.com/11452 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-24 17:48:22 -07:00
}
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func floatForComplex(t *types.Type) *types.Type {
cmd/compile: rewrite untyped constant conversion logic This CL detangles the hairy mess that was convlit+defaultlit. In particular, it makes the following changes: 1. convlit1 now follows the standard typecheck behavior of setting "n.Type = nil" if there's an error. Notably, this means for a lot of test cases, we now avoid reporting useless follow-on error messages. For example, after reporting that "1 << s + 1.0" has an invalid shift, we no longer also report that it can't be assigned to string. 2. Previously, assignconvfn had some extra logic for trying to suppress errors from convlit/defaultlit so that it could provide its own errors with better context information. Instead, this extra context information is now passed down into convlit1 directly. 3. Relatedly, this CL also removes redundant calls to defaultlit prior to assignconv. As a consequence, when an expression doesn't make sense for a particular assignment (e.g., assigning an untyped string to an integer), the error messages now say "untyped string" instead of just "string". This is more consistent with go/types behavior. 4. defaultlit2 is now smarter about only trying to convert pairs of untyped constants when it's likely to succeed. This allows us to report better error messages for things like 3+"x"; instead of "cannot convert 3 to string" we now report "mismatched types untyped number and untyped string". Passes toolstash-check. Change-Id: I26822a02dc35855bd0ac774907b1cf5737e91882 Reviewed-on: https://go-review.googlesource.com/c/go/+/187657 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2019-09-05 13:33:06 -07:00
switch t.Etype {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TCOMPLEX64:
return types.Types[types.TFLOAT32]
case types.TCOMPLEX128:
return types.Types[types.TFLOAT64]
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("unexpected type: %v", t)
cmd/compile: rewrite untyped constant conversion logic This CL detangles the hairy mess that was convlit+defaultlit. In particular, it makes the following changes: 1. convlit1 now follows the standard typecheck behavior of setting "n.Type = nil" if there's an error. Notably, this means for a lot of test cases, we now avoid reporting useless follow-on error messages. For example, after reporting that "1 << s + 1.0" has an invalid shift, we no longer also report that it can't be assigned to string. 2. Previously, assignconvfn had some extra logic for trying to suppress errors from convlit/defaultlit so that it could provide its own errors with better context information. Instead, this extra context information is now passed down into convlit1 directly. 3. Relatedly, this CL also removes redundant calls to defaultlit prior to assignconv. As a consequence, when an expression doesn't make sense for a particular assignment (e.g., assigning an untyped string to an integer), the error messages now say "untyped string" instead of just "string". This is more consistent with go/types behavior. 4. defaultlit2 is now smarter about only trying to convert pairs of untyped constants when it's likely to succeed. This allows us to report better error messages for things like 3+"x"; instead of "cannot convert 3 to string" we now report "mismatched types untyped number and untyped string". Passes toolstash-check. Change-Id: I26822a02dc35855bd0ac774907b1cf5737e91882 Reviewed-on: https://go-review.googlesource.com/c/go/+/187657 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2019-09-05 13:33:06 -07:00
return nil
}
func complexForFloat(t *types.Type) *types.Type {
switch t.Etype {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TFLOAT32:
return types.Types[types.TCOMPLEX64]
case types.TFLOAT64:
return types.Types[types.TCOMPLEX128]
cmd/compile: rewrite untyped constant conversion logic This CL detangles the hairy mess that was convlit+defaultlit. In particular, it makes the following changes: 1. convlit1 now follows the standard typecheck behavior of setting "n.Type = nil" if there's an error. Notably, this means for a lot of test cases, we now avoid reporting useless follow-on error messages. For example, after reporting that "1 << s + 1.0" has an invalid shift, we no longer also report that it can't be assigned to string. 2. Previously, assignconvfn had some extra logic for trying to suppress errors from convlit/defaultlit so that it could provide its own errors with better context information. Instead, this extra context information is now passed down into convlit1 directly. 3. Relatedly, this CL also removes redundant calls to defaultlit prior to assignconv. As a consequence, when an expression doesn't make sense for a particular assignment (e.g., assigning an untyped string to an integer), the error messages now say "untyped string" instead of just "string". This is more consistent with go/types behavior. 4. defaultlit2 is now smarter about only trying to convert pairs of untyped constants when it's likely to succeed. This allows us to report better error messages for things like 3+"x"; instead of "cannot convert 3 to string" we now report "mismatched types untyped number and untyped string". Passes toolstash-check. Change-Id: I26822a02dc35855bd0ac774907b1cf5737e91882 Reviewed-on: https://go-review.googlesource.com/c/go/+/187657 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2019-09-05 13:33:06 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("unexpected type: %v", t)
cmd/compile: rewrite untyped constant conversion logic This CL detangles the hairy mess that was convlit+defaultlit. In particular, it makes the following changes: 1. convlit1 now follows the standard typecheck behavior of setting "n.Type = nil" if there's an error. Notably, this means for a lot of test cases, we now avoid reporting useless follow-on error messages. For example, after reporting that "1 << s + 1.0" has an invalid shift, we no longer also report that it can't be assigned to string. 2. Previously, assignconvfn had some extra logic for trying to suppress errors from convlit/defaultlit so that it could provide its own errors with better context information. Instead, this extra context information is now passed down into convlit1 directly. 3. Relatedly, this CL also removes redundant calls to defaultlit prior to assignconv. As a consequence, when an expression doesn't make sense for a particular assignment (e.g., assigning an untyped string to an integer), the error messages now say "untyped string" instead of just "string". This is more consistent with go/types behavior. 4. defaultlit2 is now smarter about only trying to convert pairs of untyped constants when it's likely to succeed. This allows us to report better error messages for things like 3+"x"; instead of "cannot convert 3 to string" we now report "mismatched types untyped number and untyped string". Passes toolstash-check. Change-Id: I26822a02dc35855bd0ac774907b1cf5737e91882 Reviewed-on: https://go-review.googlesource.com/c/go/+/187657 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2019-09-05 13:33:06 -07:00
return nil
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.ssa] cmd/compile/internal/ssa: fix shift operations Convert shift ops to also encode the size of the shift amount. Change signed right shift from using CMOV to using bit twiddles. It is a little bit better (5 instructions instead of 4, but fewer bytes and slightly faster code). It's also a bit faster than the 4-instruction branch version, even with a very predictable branch. As tested on my machine, YMMV. Implement OCOM while we are here. Change-Id: I8ca12dd62fae5d626dc0e6da5d4bbd34fd9640d2 Reviewed-on: https://go-review.googlesource.com/12867 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-29 17:07:09 -07:00
type opAndTwoTypes struct {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
op ir.Op
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
etype1 types.EType
etype2 types.EType
[dev.ssa] cmd/compile/internal/ssa: fix shift operations Convert shift ops to also encode the size of the shift amount. Change signed right shift from using CMOV to using bit twiddles. It is a little bit better (5 instructions instead of 4, but fewer bytes and slightly faster code). It's also a bit faster than the 4-instruction branch version, even with a very predictable branch. As tested on my machine, YMMV. Implement OCOM while we are here. Change-Id: I8ca12dd62fae5d626dc0e6da5d4bbd34fd9640d2 Reviewed-on: https://go-review.googlesource.com/12867 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-29 17:07:09 -07:00
}
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
type twoTypes struct {
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
etype1 types.EType
etype2 types.EType
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
type twoOpsAndType struct {
op1 ssa.Op
op2 ssa.Op
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
intermediateType types.EType
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
var fpConvOpToSSA = map[twoTypes]twoOpsAndType{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
twoTypes{types.TINT8, types.TFLOAT32}: twoOpsAndType{ssa.OpSignExt8to32, ssa.OpCvt32to32F, types.TINT32},
twoTypes{types.TINT16, types.TFLOAT32}: twoOpsAndType{ssa.OpSignExt16to32, ssa.OpCvt32to32F, types.TINT32},
twoTypes{types.TINT32, types.TFLOAT32}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt32to32F, types.TINT32},
twoTypes{types.TINT64, types.TFLOAT32}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt64to32F, types.TINT64},
twoTypes{types.TINT8, types.TFLOAT64}: twoOpsAndType{ssa.OpSignExt8to32, ssa.OpCvt32to64F, types.TINT32},
twoTypes{types.TINT16, types.TFLOAT64}: twoOpsAndType{ssa.OpSignExt16to32, ssa.OpCvt32to64F, types.TINT32},
twoTypes{types.TINT32, types.TFLOAT64}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt32to64F, types.TINT32},
twoTypes{types.TINT64, types.TFLOAT64}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt64to64F, types.TINT64},
twoTypes{types.TFLOAT32, types.TINT8}: twoOpsAndType{ssa.OpCvt32Fto32, ssa.OpTrunc32to8, types.TINT32},
twoTypes{types.TFLOAT32, types.TINT16}: twoOpsAndType{ssa.OpCvt32Fto32, ssa.OpTrunc32to16, types.TINT32},
twoTypes{types.TFLOAT32, types.TINT32}: twoOpsAndType{ssa.OpCvt32Fto32, ssa.OpCopy, types.TINT32},
twoTypes{types.TFLOAT32, types.TINT64}: twoOpsAndType{ssa.OpCvt32Fto64, ssa.OpCopy, types.TINT64},
twoTypes{types.TFLOAT64, types.TINT8}: twoOpsAndType{ssa.OpCvt64Fto32, ssa.OpTrunc32to8, types.TINT32},
twoTypes{types.TFLOAT64, types.TINT16}: twoOpsAndType{ssa.OpCvt64Fto32, ssa.OpTrunc32to16, types.TINT32},
twoTypes{types.TFLOAT64, types.TINT32}: twoOpsAndType{ssa.OpCvt64Fto32, ssa.OpCopy, types.TINT32},
twoTypes{types.TFLOAT64, types.TINT64}: twoOpsAndType{ssa.OpCvt64Fto64, ssa.OpCopy, types.TINT64},
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
// unsigned
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
twoTypes{types.TUINT8, types.TFLOAT32}: twoOpsAndType{ssa.OpZeroExt8to32, ssa.OpCvt32to32F, types.TINT32},
twoTypes{types.TUINT16, types.TFLOAT32}: twoOpsAndType{ssa.OpZeroExt16to32, ssa.OpCvt32to32F, types.TINT32},
twoTypes{types.TUINT32, types.TFLOAT32}: twoOpsAndType{ssa.OpZeroExt32to64, ssa.OpCvt64to32F, types.TINT64}, // go wide to dodge unsigned
twoTypes{types.TUINT64, types.TFLOAT32}: twoOpsAndType{ssa.OpCopy, ssa.OpInvalid, types.TUINT64}, // Cvt64Uto32F, branchy code expansion instead
twoTypes{types.TUINT8, types.TFLOAT64}: twoOpsAndType{ssa.OpZeroExt8to32, ssa.OpCvt32to64F, types.TINT32},
twoTypes{types.TUINT16, types.TFLOAT64}: twoOpsAndType{ssa.OpZeroExt16to32, ssa.OpCvt32to64F, types.TINT32},
twoTypes{types.TUINT32, types.TFLOAT64}: twoOpsAndType{ssa.OpZeroExt32to64, ssa.OpCvt64to64F, types.TINT64}, // go wide to dodge unsigned
twoTypes{types.TUINT64, types.TFLOAT64}: twoOpsAndType{ssa.OpCopy, ssa.OpInvalid, types.TUINT64}, // Cvt64Uto64F, branchy code expansion instead
twoTypes{types.TFLOAT32, types.TUINT8}: twoOpsAndType{ssa.OpCvt32Fto32, ssa.OpTrunc32to8, types.TINT32},
twoTypes{types.TFLOAT32, types.TUINT16}: twoOpsAndType{ssa.OpCvt32Fto32, ssa.OpTrunc32to16, types.TINT32},
twoTypes{types.TFLOAT32, types.TUINT32}: twoOpsAndType{ssa.OpCvt32Fto64, ssa.OpTrunc64to32, types.TINT64}, // go wide to dodge unsigned
twoTypes{types.TFLOAT32, types.TUINT64}: twoOpsAndType{ssa.OpInvalid, ssa.OpCopy, types.TUINT64}, // Cvt32Fto64U, branchy code expansion instead
twoTypes{types.TFLOAT64, types.TUINT8}: twoOpsAndType{ssa.OpCvt64Fto32, ssa.OpTrunc32to8, types.TINT32},
twoTypes{types.TFLOAT64, types.TUINT16}: twoOpsAndType{ssa.OpCvt64Fto32, ssa.OpTrunc32to16, types.TINT32},
twoTypes{types.TFLOAT64, types.TUINT32}: twoOpsAndType{ssa.OpCvt64Fto64, ssa.OpTrunc64to32, types.TINT64}, // go wide to dodge unsigned
twoTypes{types.TFLOAT64, types.TUINT64}: twoOpsAndType{ssa.OpInvalid, ssa.OpCopy, types.TUINT64}, // Cvt64Fto64U, branchy code expansion instead
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
// float
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
twoTypes{types.TFLOAT64, types.TFLOAT32}: twoOpsAndType{ssa.OpCvt64Fto32F, ssa.OpCopy, types.TFLOAT32},
twoTypes{types.TFLOAT64, types.TFLOAT64}: twoOpsAndType{ssa.OpRound64F, ssa.OpCopy, types.TFLOAT64},
twoTypes{types.TFLOAT32, types.TFLOAT32}: twoOpsAndType{ssa.OpRound32F, ssa.OpCopy, types.TFLOAT32},
twoTypes{types.TFLOAT32, types.TFLOAT64}: twoOpsAndType{ssa.OpCvt32Fto64F, ssa.OpCopy, types.TFLOAT64},
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
[dev.ssa] cmd/compile: handle floating point on ARM Machine supports (or the runtime simulates in soft float mode) (u)int32<->float conversions. The frontend rewrites int64<->float conversions to call to runtime function. For int64->float32 conversion, the frontend generates . . AS u(100) l(10) tc(1) . . . NAME-main.~r1 u(1) a(true) g(1) l(9) x(8+0) class(PPARAMOUT) f(1) float32 . . . CALLFUNC u(100) l(10) tc(1) float32 . . . . NAME-runtime.int64tofloat64 u(1) a(true) x(0+0) class(PFUNC) tc(1) used(true) FUNC-func(int64) float64 The CALLFUNC node has type float32, whereas runtime.int64tofloat64 returns float64. The legacy backend implicitly makes a float64->float32 conversion. The SSA backend does not do implicit conversion, so we insert an explicit CONV here. All cmd/compile/internal/gc/testdata/*_ssa.go tests passed. Progress on SSA for ARM. Still not complete. Update #15365. Change-Id: I30937c8ff977271246b068f48224693776804339 Reviewed-on: https://go-review.googlesource.com/23652 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-31 11:27:16 -04:00
// this map is used only for 32-bit arch, and only includes the difference
// on 32-bit arch, don't use int64<->float conversion for uint32
var fpConvOpToSSA32 = map[twoTypes]twoOpsAndType{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
twoTypes{types.TUINT32, types.TFLOAT32}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt32Uto32F, types.TUINT32},
twoTypes{types.TUINT32, types.TFLOAT64}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt32Uto64F, types.TUINT32},
twoTypes{types.TFLOAT32, types.TUINT32}: twoOpsAndType{ssa.OpCvt32Fto32U, ssa.OpCopy, types.TUINT32},
twoTypes{types.TFLOAT64, types.TUINT32}: twoOpsAndType{ssa.OpCvt64Fto32U, ssa.OpCopy, types.TUINT32},
[dev.ssa] cmd/compile: handle floating point on ARM Machine supports (or the runtime simulates in soft float mode) (u)int32<->float conversions. The frontend rewrites int64<->float conversions to call to runtime function. For int64->float32 conversion, the frontend generates . . AS u(100) l(10) tc(1) . . . NAME-main.~r1 u(1) a(true) g(1) l(9) x(8+0) class(PPARAMOUT) f(1) float32 . . . CALLFUNC u(100) l(10) tc(1) float32 . . . . NAME-runtime.int64tofloat64 u(1) a(true) x(0+0) class(PFUNC) tc(1) used(true) FUNC-func(int64) float64 The CALLFUNC node has type float32, whereas runtime.int64tofloat64 returns float64. The legacy backend implicitly makes a float64->float32 conversion. The SSA backend does not do implicit conversion, so we insert an explicit CONV here. All cmd/compile/internal/gc/testdata/*_ssa.go tests passed. Progress on SSA for ARM. Still not complete. Update #15365. Change-Id: I30937c8ff977271246b068f48224693776804339 Reviewed-on: https://go-review.googlesource.com/23652 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-31 11:27:16 -04:00
}
all: fix typos Use the following (suboptimal) script to obtain a list of possible typos: #!/usr/bin/env sh set -x git ls-files |\ grep -e '\.\(c\|cc\|go\)$' |\ xargs -n 1\ awk\ '/\/\// { gsub(/.*\/\//, ""); print; } /\/\*/, /\*\// { gsub(/.*\/\*/, ""); gsub(/\*\/.*/, ""); }' |\ hunspell -d en_US -l |\ grep '^[[:upper:]]\{0,1\}[[:lower:]]\{1,\}$' |\ grep -v -e '^.\{1,4\}$' -e '^.\{16,\}$' |\ sort -f |\ uniq -c |\ awk '$1 == 1 { print $2; }' Then, go through the results manually and fix the most obvious typos in the non-vendored code. Change-Id: I3cb5830a176850e1a0584b8a40b47bde7b260eae Reviewed-on: https://go-review.googlesource.com/c/go/+/193848 Reviewed-by: Robert Griesemer <gri@golang.org>
2019-09-08 19:36:13 +03:00
// uint64<->float conversions, only on machines that have instructions for that
cmd/compile: add more ARM64 optimizations - Use machine instructions for uint64<->float conversions - Do not enforce alignment on Zero/Move ARM64 supports unaligned load/stores, but only aligned offset or small offset can be encoded into instructions. - Do combined loads Change-Id: Iffca7dd0f13070b17b784861ce5a30af584680eb Reviewed-on: https://go-review.googlesource.com/27086 Reviewed-by: David Chase <drchase@google.com>
2016-08-16 14:17:33 -04:00
var uint64fpConvOpToSSA = map[twoTypes]twoOpsAndType{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
twoTypes{types.TUINT64, types.TFLOAT32}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt64Uto32F, types.TUINT64},
twoTypes{types.TUINT64, types.TFLOAT64}: twoOpsAndType{ssa.OpCopy, ssa.OpCvt64Uto64F, types.TUINT64},
twoTypes{types.TFLOAT32, types.TUINT64}: twoOpsAndType{ssa.OpCvt32Fto64U, ssa.OpCopy, types.TUINT64},
twoTypes{types.TFLOAT64, types.TUINT64}: twoOpsAndType{ssa.OpCvt64Fto64U, ssa.OpCopy, types.TUINT64},
cmd/compile: add more ARM64 optimizations - Use machine instructions for uint64<->float conversions - Do not enforce alignment on Zero/Move ARM64 supports unaligned load/stores, but only aligned offset or small offset can be encoded into instructions. - Do combined loads Change-Id: Iffca7dd0f13070b17b784861ce5a30af584680eb Reviewed-on: https://go-review.googlesource.com/27086 Reviewed-by: David Chase <drchase@google.com>
2016-08-16 14:17:33 -04:00
}
[dev.ssa] cmd/compile/internal/ssa: fix shift operations Convert shift ops to also encode the size of the shift amount. Change signed right shift from using CMOV to using bit twiddles. It is a little bit better (5 instructions instead of 4, but fewer bytes and slightly faster code). It's also a bit faster than the 4-instruction branch version, even with a very predictable branch. As tested on my machine, YMMV. Implement OCOM while we are here. Change-Id: I8ca12dd62fae5d626dc0e6da5d4bbd34fd9640d2 Reviewed-on: https://go-review.googlesource.com/12867 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-29 17:07:09 -07:00
var shiftOpToSSA = map[opAndTwoTypes]ssa.Op{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
opAndTwoTypes{ir.OLSH, types.TINT8, types.TUINT8}: ssa.OpLsh8x8,
opAndTwoTypes{ir.OLSH, types.TUINT8, types.TUINT8}: ssa.OpLsh8x8,
opAndTwoTypes{ir.OLSH, types.TINT8, types.TUINT16}: ssa.OpLsh8x16,
opAndTwoTypes{ir.OLSH, types.TUINT8, types.TUINT16}: ssa.OpLsh8x16,
opAndTwoTypes{ir.OLSH, types.TINT8, types.TUINT32}: ssa.OpLsh8x32,
opAndTwoTypes{ir.OLSH, types.TUINT8, types.TUINT32}: ssa.OpLsh8x32,
opAndTwoTypes{ir.OLSH, types.TINT8, types.TUINT64}: ssa.OpLsh8x64,
opAndTwoTypes{ir.OLSH, types.TUINT8, types.TUINT64}: ssa.OpLsh8x64,
opAndTwoTypes{ir.OLSH, types.TINT16, types.TUINT8}: ssa.OpLsh16x8,
opAndTwoTypes{ir.OLSH, types.TUINT16, types.TUINT8}: ssa.OpLsh16x8,
opAndTwoTypes{ir.OLSH, types.TINT16, types.TUINT16}: ssa.OpLsh16x16,
opAndTwoTypes{ir.OLSH, types.TUINT16, types.TUINT16}: ssa.OpLsh16x16,
opAndTwoTypes{ir.OLSH, types.TINT16, types.TUINT32}: ssa.OpLsh16x32,
opAndTwoTypes{ir.OLSH, types.TUINT16, types.TUINT32}: ssa.OpLsh16x32,
opAndTwoTypes{ir.OLSH, types.TINT16, types.TUINT64}: ssa.OpLsh16x64,
opAndTwoTypes{ir.OLSH, types.TUINT16, types.TUINT64}: ssa.OpLsh16x64,
opAndTwoTypes{ir.OLSH, types.TINT32, types.TUINT8}: ssa.OpLsh32x8,
opAndTwoTypes{ir.OLSH, types.TUINT32, types.TUINT8}: ssa.OpLsh32x8,
opAndTwoTypes{ir.OLSH, types.TINT32, types.TUINT16}: ssa.OpLsh32x16,
opAndTwoTypes{ir.OLSH, types.TUINT32, types.TUINT16}: ssa.OpLsh32x16,
opAndTwoTypes{ir.OLSH, types.TINT32, types.TUINT32}: ssa.OpLsh32x32,
opAndTwoTypes{ir.OLSH, types.TUINT32, types.TUINT32}: ssa.OpLsh32x32,
opAndTwoTypes{ir.OLSH, types.TINT32, types.TUINT64}: ssa.OpLsh32x64,
opAndTwoTypes{ir.OLSH, types.TUINT32, types.TUINT64}: ssa.OpLsh32x64,
opAndTwoTypes{ir.OLSH, types.TINT64, types.TUINT8}: ssa.OpLsh64x8,
opAndTwoTypes{ir.OLSH, types.TUINT64, types.TUINT8}: ssa.OpLsh64x8,
opAndTwoTypes{ir.OLSH, types.TINT64, types.TUINT16}: ssa.OpLsh64x16,
opAndTwoTypes{ir.OLSH, types.TUINT64, types.TUINT16}: ssa.OpLsh64x16,
opAndTwoTypes{ir.OLSH, types.TINT64, types.TUINT32}: ssa.OpLsh64x32,
opAndTwoTypes{ir.OLSH, types.TUINT64, types.TUINT32}: ssa.OpLsh64x32,
opAndTwoTypes{ir.OLSH, types.TINT64, types.TUINT64}: ssa.OpLsh64x64,
opAndTwoTypes{ir.OLSH, types.TUINT64, types.TUINT64}: ssa.OpLsh64x64,
opAndTwoTypes{ir.ORSH, types.TINT8, types.TUINT8}: ssa.OpRsh8x8,
opAndTwoTypes{ir.ORSH, types.TUINT8, types.TUINT8}: ssa.OpRsh8Ux8,
opAndTwoTypes{ir.ORSH, types.TINT8, types.TUINT16}: ssa.OpRsh8x16,
opAndTwoTypes{ir.ORSH, types.TUINT8, types.TUINT16}: ssa.OpRsh8Ux16,
opAndTwoTypes{ir.ORSH, types.TINT8, types.TUINT32}: ssa.OpRsh8x32,
opAndTwoTypes{ir.ORSH, types.TUINT8, types.TUINT32}: ssa.OpRsh8Ux32,
opAndTwoTypes{ir.ORSH, types.TINT8, types.TUINT64}: ssa.OpRsh8x64,
opAndTwoTypes{ir.ORSH, types.TUINT8, types.TUINT64}: ssa.OpRsh8Ux64,
opAndTwoTypes{ir.ORSH, types.TINT16, types.TUINT8}: ssa.OpRsh16x8,
opAndTwoTypes{ir.ORSH, types.TUINT16, types.TUINT8}: ssa.OpRsh16Ux8,
opAndTwoTypes{ir.ORSH, types.TINT16, types.TUINT16}: ssa.OpRsh16x16,
opAndTwoTypes{ir.ORSH, types.TUINT16, types.TUINT16}: ssa.OpRsh16Ux16,
opAndTwoTypes{ir.ORSH, types.TINT16, types.TUINT32}: ssa.OpRsh16x32,
opAndTwoTypes{ir.ORSH, types.TUINT16, types.TUINT32}: ssa.OpRsh16Ux32,
opAndTwoTypes{ir.ORSH, types.TINT16, types.TUINT64}: ssa.OpRsh16x64,
opAndTwoTypes{ir.ORSH, types.TUINT16, types.TUINT64}: ssa.OpRsh16Ux64,
opAndTwoTypes{ir.ORSH, types.TINT32, types.TUINT8}: ssa.OpRsh32x8,
opAndTwoTypes{ir.ORSH, types.TUINT32, types.TUINT8}: ssa.OpRsh32Ux8,
opAndTwoTypes{ir.ORSH, types.TINT32, types.TUINT16}: ssa.OpRsh32x16,
opAndTwoTypes{ir.ORSH, types.TUINT32, types.TUINT16}: ssa.OpRsh32Ux16,
opAndTwoTypes{ir.ORSH, types.TINT32, types.TUINT32}: ssa.OpRsh32x32,
opAndTwoTypes{ir.ORSH, types.TUINT32, types.TUINT32}: ssa.OpRsh32Ux32,
opAndTwoTypes{ir.ORSH, types.TINT32, types.TUINT64}: ssa.OpRsh32x64,
opAndTwoTypes{ir.ORSH, types.TUINT32, types.TUINT64}: ssa.OpRsh32Ux64,
opAndTwoTypes{ir.ORSH, types.TINT64, types.TUINT8}: ssa.OpRsh64x8,
opAndTwoTypes{ir.ORSH, types.TUINT64, types.TUINT8}: ssa.OpRsh64Ux8,
opAndTwoTypes{ir.ORSH, types.TINT64, types.TUINT16}: ssa.OpRsh64x16,
opAndTwoTypes{ir.ORSH, types.TUINT64, types.TUINT16}: ssa.OpRsh64Ux16,
opAndTwoTypes{ir.ORSH, types.TINT64, types.TUINT32}: ssa.OpRsh64x32,
opAndTwoTypes{ir.ORSH, types.TUINT64, types.TUINT32}: ssa.OpRsh64Ux32,
opAndTwoTypes{ir.ORSH, types.TINT64, types.TUINT64}: ssa.OpRsh64x64,
opAndTwoTypes{ir.ORSH, types.TUINT64, types.TUINT64}: ssa.OpRsh64Ux64,
}
func (s *state) ssaShiftOp(op ir.Op, t *types.Type, u *types.Type) ssa.Op {
[dev.ssa] cmd/compile/internal/ssa: fix shift operations Convert shift ops to also encode the size of the shift amount. Change signed right shift from using CMOV to using bit twiddles. It is a little bit better (5 instructions instead of 4, but fewer bytes and slightly faster code). It's also a bit faster than the 4-instruction branch version, even with a very predictable branch. As tested on my machine, YMMV. Implement OCOM while we are here. Change-Id: I8ca12dd62fae5d626dc0e6da5d4bbd34fd9640d2 Reviewed-on: https://go-review.googlesource.com/12867 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-29 17:07:09 -07:00
etype1 := s.concreteEtype(t)
etype2 := s.concreteEtype(u)
x, ok := shiftOpToSSA[opAndTwoTypes{op, etype1, etype2}]
if !ok {
cmd/compile: make ssa compilation unconditional Rip out the code that allows SSA to be used conditionally. No longer exists: ssa=0 flag GOSSAHASH GOSSAPKG SSATEST GOSSAFUNC now only controls the printing of the IR/html. Still need to rip out all of the old backend. It should no longer be callable after this CL. Update #16357 Change-Id: Ib30cc18fba6ca52232c41689ba610b0a94aa74f5 Reviewed-on: https://go-review.googlesource.com/29155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-14 10:01:05 -07:00
s.Fatalf("unhandled shift op %v etype=%s/%s", op, etype1, etype2)
[dev.ssa] cmd/compile/internal/ssa: fix shift operations Convert shift ops to also encode the size of the shift amount. Change signed right shift from using CMOV to using bit twiddles. It is a little bit better (5 instructions instead of 4, but fewer bytes and slightly faster code). It's also a bit faster than the 4-instruction branch version, even with a very predictable branch. As tested on my machine, YMMV. Implement OCOM while we are here. Change-Id: I8ca12dd62fae5d626dc0e6da5d4bbd34fd9640d2 Reviewed-on: https://go-review.googlesource.com/12867 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-29 17:07:09 -07:00
}
return x
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// expr converts the expression n to ssa, adds it to s and returns the ssa result.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) expr(n ir.Node) *ssa.Value {
[dev.regabi] cmd/compile: replace CTNIL with ONIL Properly speaking, "nil" is a zero value, not a constant. So go/constant does not have a representation for it. To allow replacing Val with constant.Value, we split out ONIL separately from OLITERAL so we can get rid of CTNIL. Passes toolstash-check. Change-Id: I4c8e60cae3b3c91bbac43b3b0cf2a4ade028d6cb Reviewed-on: https://go-review.googlesource.com/c/go/+/272650 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 20:38:21 -08:00
if hasUniquePos(n) {
cmd/compile: don't use line numbers from ONAME and named OLITERALs The line numbers of ONAMEs are the location of their declaration, not their use. The line numbers of named OLITERALs are also the location of their declaration. Ignore both of these. Instead, we will inherit the line number from the containing syntactic item. Fixes #14742 Fixes #15430 Change-Id: Ie43b5b9f6321cbf8cead56e37ccc9364d0702f2f Reviewed-on: https://go-review.googlesource.com/22479 Reviewed-by: Robert Griesemer <gri@golang.org> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-26 15:22:33 -07:00
// ONAMEs and named OLITERALs have the line number
// of the decl, not the use. See issue 14742.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.pushLine(n.Pos())
cmd/compile: don't use line numbers from ONAME and named OLITERALs The line numbers of ONAMEs are the location of their declaration, not their use. The line numbers of named OLITERALs are also the location of their declaration. Ignore both of these. Instead, we will inherit the line number from the containing syntactic item. Fixes #14742 Fixes #15430 Change-Id: Ie43b5b9f6321cbf8cead56e37ccc9364d0702f2f Reviewed-on: https://go-review.googlesource.com/22479 Reviewed-by: Robert Griesemer <gri@golang.org> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-26 15:22:33 -07:00
defer s.popLine()
}
[dev.ssa] cmd/compile/internal/ssa: add line numbers to Values Change-Id: I1dfffd75cc1f49307c654f910f7133c03da6c84f Reviewed-on: https://go-review.googlesource.com/10559 Reviewed-by: Keith Randall <khr@golang.org>
2015-05-30 01:03:06 -04:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Init())
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OBYTES2STRTMP:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
slice := s.expr(n.Left())
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
ptr := s.newValue1(ssa.OpSlicePtr, s.f.Config.Types.BytePtr, slice)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpSliceLen, types.Types[types.TINT], slice)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpStringMake, n.Type(), ptr, len)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSTR2BYTESTMP:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
str := s.expr(n.Left())
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
ptr := s.newValue1(ssa.OpStringPtr, s.f.Config.Types.BytePtr, str)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpStringLen, types.Types[types.TINT], str)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue3(ssa.OpSliceMake, n.Type(), ptr, len, len)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCFUNC:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
aux := n.Left().Sym().Linksym()
return s.entryNewValue1A(ssa.OpAddr, n.Type(), aux, s.sb)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OMETHEXPR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym := funcsym(n.Sym()).Linksym()
return s.entryNewValue1A(ssa.OpAddr, types.NewPtr(n.Type()), sym, s.sb)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONAME:
if n.Class() == ir.PFUNC {
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
// "value" of a function is the address of the function's closure
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym := funcsym(n.Sym()).Linksym()
return s.entryNewValue1A(ssa.OpAddr, types.NewPtr(n.Type()), sym, s.sb)
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
}
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
if s.canSSA(n) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.variable(n, n.Type())
[dev.ssa] cmd/internal/ssa: implement global variables Fix a few compilation errors due to previous merge from tip. Change-Id: I826ad5a9d602a8f8be2762ad00b030dea6f41bcc Reviewed-on: https://go-review.googlesource.com/9967 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-12 15:16:52 -07:00
}
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr := s.addr(n)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Type(), addr)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCLOSUREVAR:
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr := s.addr(n)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Type(), addr)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONIL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := n.Type()
[dev.regabi] cmd/compile: replace CTNIL with ONIL Properly speaking, "nil" is a zero value, not a constant. So go/constant does not have a representation for it. To allow replacing Val with constant.Value, we split out ONIL separately from OLITERAL so we can get rid of CTNIL. Passes toolstash-check. Change-Id: I4c8e60cae3b3c91bbac43b3b0cf2a4ade028d6cb Reviewed-on: https://go-review.googlesource.com/c/go/+/272650 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 20:38:21 -08:00
switch {
case t.IsSlice():
return s.constSlice(t)
case t.IsInterface():
return s.constInterface(t)
default:
return s.constNil(t)
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLITERAL:
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
switch u := n.Val(); u.Kind() {
case constant.Int:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
i := ir.Int64Val(n.Type(), u)
switch n.Type().Size() {
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case 1:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constInt8(n.Type(), int8(i))
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case 2:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constInt16(n.Type(), int16(i))
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case 4:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constInt32(n.Type(), int32(i))
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case 8:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constInt64(n.Type(), i)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("bad integer size %d", n.Type().Size())
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
return nil
}
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
case constant.String:
i := constant.StringVal(u)
if i == "" {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constEmptyString(n.Type())
cmd/compile: cache const nil, iface, slice, and "" name old time/op new time/op delta Template 441ms ± 4% 446ms ± 4% +1.23% (p=0.048 n=22+25) GoTypes 1.51s ± 2% 1.51s ± 2% ~ (p=0.224 n=25+25) Compiler 5.59s ± 1% 5.57s ± 2% -0.38% (p=0.019 n=24+24) name old alloc/op new alloc/op delta Template 85.6MB ± 0% 85.6MB ± 0% -0.11% (p=0.000 n=25+24) GoTypes 307MB ± 0% 305MB ± 0% -0.45% (p=0.000 n=25+25) Compiler 1.06GB ± 0% 1.06GB ± 0% -0.34% (p=0.000 n=25+25) name old allocs/op new allocs/op delta Template 1.10M ± 0% 1.10M ± 0% -0.03% (p=0.001 n=25+24) GoTypes 3.36M ± 0% 3.35M ± 0% -0.13% (p=0.000 n=25+25) Compiler 13.0M ± 0% 13.0M ± 0% -0.12% (p=0.000 n=25+24) Change-Id: I7fc18acbc3b1588aececef9692e24a0bd3dba974 Reviewed-on: https://go-review.googlesource.com/20295 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-06 18:06:09 -08:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.entryNewValue0A(ssa.OpConstString, n.Type(), i)
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
case constant.Bool:
return s.constBool(constant.BoolVal(u))
case constant.Float:
f, _ := constant.Float64Val(u)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Type().Size() {
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
case 4:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constFloat32(n.Type(), f)
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
case 8:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constFloat64(n.Type(), f)
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("bad float size %d", n.Type().Size())
[dev.ssa] cmd/compile: first unoptimized cut at adding FP support Added F32 and F64 load, store, and addition. Added F32 and F64 multiply. Added F32 and F64 subtraction and division. Added X15 to "clobber" for FP sub/div Added FP constants Added separate FP test in gc/testdata Change-Id: Ifa60dbad948a40011b478d9605862c4b0cc9134c Reviewed-on: https://go-review.googlesource.com/13612 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 16:38:11 -04:00
return nil
}
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
case constant.Complex:
re, _ := constant.Float64Val(constant.Real(u))
im, _ := constant.Float64Val(constant.Imag(u))
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Type().Size() {
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
case 8:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
pt := types.Types[types.TFLOAT32]
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpComplexMake, n.Type(),
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
s.constFloat32(pt, re),
s.constFloat32(pt, im))
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
case 16:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
pt := types.Types[types.TFLOAT64]
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpComplexMake, n.Type(),
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
s.constFloat64(pt, re),
s.constFloat64(pt, im))
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("bad complex size %d", n.Type().Size())
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
return nil
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
default:
[dev.regabi] cmd/compile: replace Val with go/constant.Value This replaces the compiler's legacy constant representation with go/constant, which is used by go/types. This should ease integrating with the new go/types-based type checker in the future. Performance difference is mixed, but there's still room for improvement. name old time/op new time/op delta Template 280ms ± 6% 281ms ± 6% ~ (p=0.488 n=592+587) Unicode 132ms ±11% 129ms ±11% -2.61% (p=0.000 n=592+591) GoTypes 865ms ± 3% 866ms ± 3% +0.16% (p=0.019 n=572+577) Compiler 3.60s ± 3% 3.60s ± 3% ~ (p=0.083 n=578+582) SSA 8.27s ± 2% 8.28s ± 2% +0.14% (p=0.002 n=575+580) Flate 177ms ± 8% 176ms ± 8% ~ (p=0.133 n=580+590) GoParser 238ms ± 7% 237ms ± 6% ~ (p=0.569 n=587+591) Reflect 542ms ± 4% 543ms ± 4% ~ (p=0.064 n=581+579) Tar 244ms ± 6% 244ms ± 6% ~ (p=0.880 n=586+584) XML 322ms ± 5% 322ms ± 5% ~ (p=0.449 n=589+590) LinkCompiler 454ms ± 6% 453ms ± 6% ~ (p=0.249 n=585+583) ExternalLinkCompiler 1.35s ± 4% 1.35s ± 4% ~ (p=0.968 n=590+588) LinkWithoutDebugCompiler 279ms ± 7% 280ms ± 7% ~ (p=0.270 n=589+586) [Geo mean] 535ms 534ms -0.17% name old user-time/op new user-time/op delta Template 599ms ±22% 602ms ±21% ~ (p=0.377 n=588+590) Unicode 410ms ±43% 376ms ±39% -8.36% (p=0.000 n=596+586) GoTypes 1.96s ±15% 1.97s ±17% +0.70% (p=0.031 n=596+594) Compiler 7.47s ± 9% 7.50s ± 8% +0.38% (p=0.031 n=591+583) SSA 16.2s ± 4% 16.2s ± 5% ~ (p=0.617 n=531+531) Flate 298ms ±25% 292ms ±30% -2.14% (p=0.001 n=594+596) GoParser 379ms ±20% 381ms ±21% ~ (p=0.312 n=578+584) Reflect 1.24s ±20% 1.25s ±23% +0.88% (p=0.031 n=592+596) Tar 471ms ±23% 473ms ±21% ~ (p=0.616 n=593+587) XML 674ms ±20% 681ms ±21% +1.03% (p=0.050 n=584+587) LinkCompiler 842ms ±10% 839ms ±10% ~ (p=0.074 n=587+590) ExternalLinkCompiler 1.65s ± 7% 1.65s ± 7% ~ (p=0.767 n=590+585) LinkWithoutDebugCompiler 378ms ±11% 379ms ±12% ~ (p=0.677 n=591+586) [Geo mean] 1.02s 1.02s -0.52% name old alloc/op new alloc/op delta Template 37.4MB ± 0% 37.4MB ± 0% +0.06% (p=0.000 n=589+585) Unicode 29.6MB ± 0% 28.6MB ± 0% -3.11% (p=0.000 n=574+566) GoTypes 120MB ± 0% 120MB ± 0% -0.01% (p=0.000 n=594+593) Compiler 568MB ± 0% 568MB ± 0% -0.02% (p=0.000 n=588+591) SSA 1.45GB ± 0% 1.45GB ± 0% -0.16% (p=0.000 n=596+592) Flate 22.6MB ± 0% 22.5MB ± 0% -0.36% (p=0.000 n=593+595) GoParser 30.1MB ± 0% 30.1MB ± 0% -0.01% (p=0.000 n=590+594) Reflect 77.8MB ± 0% 77.8MB ± 0% ~ (p=0.631 n=584+591) Tar 34.1MB ± 0% 34.1MB ± 0% -0.04% (p=0.000 n=584+588) XML 43.6MB ± 0% 43.6MB ± 0% +0.07% (p=0.000 n=593+591) LinkCompiler 98.6MB ± 0% 98.6MB ± 0% ~ (p=0.096 n=590+589) ExternalLinkCompiler 89.6MB ± 0% 89.6MB ± 0% ~ (p=0.695 n=590+587) LinkWithoutDebugCompiler 57.2MB ± 0% 57.2MB ± 0% ~ (p=0.674 n=590+589) [Geo mean] 78.5MB 78.3MB -0.28% name old allocs/op new allocs/op delta Template 379k ± 0% 380k ± 0% +0.33% (p=0.000 n=593+590) Unicode 344k ± 0% 338k ± 0% -1.67% (p=0.000 n=594+589) GoTypes 1.30M ± 0% 1.31M ± 0% +0.19% (p=0.000 n=592+591) Compiler 5.40M ± 0% 5.41M ± 0% +0.23% (p=0.000 n=587+585) SSA 14.2M ± 0% 14.2M ± 0% +0.08% (p=0.000 n=594+591) Flate 231k ± 0% 230k ± 0% -0.42% (p=0.000 n=588+589) GoParser 314k ± 0% 315k ± 0% +0.16% (p=0.000 n=587+594) Reflect 975k ± 0% 976k ± 0% +0.10% (p=0.000 n=590+594) Tar 344k ± 0% 345k ± 0% +0.24% (p=0.000 n=595+590) XML 422k ± 0% 424k ± 0% +0.57% (p=0.000 n=590+589) LinkCompiler 538k ± 0% 538k ± 0% -0.00% (p=0.045 n=592+587) ExternalLinkCompiler 593k ± 0% 593k ± 0% ~ (p=0.171 n=588+587) LinkWithoutDebugCompiler 172k ± 0% 172k ± 0% ~ (p=0.996 n=590+585) [Geo mean] 685k 685k -0.02% name old maxRSS/op new maxRSS/op delta Template 53.7M ± 8% 53.8M ± 8% ~ (p=0.666 n=576+574) Unicode 54.4M ±12% 55.0M ±10% +1.15% (p=0.000 n=591+588) GoTypes 95.1M ± 4% 95.1M ± 4% ~ (p=0.948 n=589+591) Compiler 334M ± 6% 334M ± 6% ~ (p=0.875 n=592+593) SSA 792M ± 5% 791M ± 5% ~ (p=0.067 n=592+591) Flate 39.9M ±11% 40.0M ±10% ~ (p=0.131 n=596+596) GoParser 45.2M ±11% 45.3M ±11% ~ (p=0.353 n=592+590) Reflect 76.1M ± 5% 76.2M ± 5% ~ (p=0.114 n=594+594) Tar 49.4M ±10% 49.6M ± 9% +0.57% (p=0.015 n=590+593) XML 57.4M ± 9% 57.7M ± 8% +0.67% (p=0.000 n=592+580) LinkCompiler 183M ± 2% 183M ± 2% ~ (p=0.229 n=587+591) ExternalLinkCompiler 187M ± 2% 187M ± 3% ~ (p=0.362 n=571+562) LinkWithoutDebugCompiler 143M ± 3% 143M ± 3% ~ (p=0.350 n=584+586) [Geo mean] 103M 103M +0.23% Passes toolstash-check. Fixes #4617. Change-Id: Id4f6759b4afc5e002770091d0d4f6e272ee6cbdd Reviewed-on: https://go-review.googlesource.com/c/go/+/272654 Reviewed-by: Robert Griesemer <gri@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
2020-11-13 23:36:48 -08:00
s.Fatalf("unhandled OLITERAL %v", u.Kind())
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
return nil
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONVNOP:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
to := n.Type()
from := n.Left().Type()
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
// Assume everything will work out, so set up our return value.
// Anything interesting that happens from here is a fatal.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
x := s.expr(n.Left())
[dev.ssa] cmd/compile: enhance SSA filtering, add OpConvert Modified GOSSA{HASH.PKG} environment variable filters to make it easier to make/run with all SSA for testing. Disable attempts at SSA for architectures that are not amd64 (avoid spurious errors/unimplementeds.) Removed easy out for unimplemented features. Add convert op for proper liveness in presence of uintptr to/from unsafe.Pointer conversions. Tweaked stack sizes to get a pass on windows; 1024 instead 768, was observed to pass at least once. Change-Id: Ida3800afcda67d529e3b1cf48ca4a3f0fa48b2c5 Reviewed-on: https://go-review.googlesource.com/16201 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-19 11:36:07 -04:00
// Special case for not confusing GC and liveness.
// We don't want pointers accidentally classified
// as not-pointers or vice-versa because of copy
// elision.
cmd/compile: rename Type.IsPtr to Type.IsPtrShaped Previously, t.IsPtr() reported whether t was represented with a pointer, but some of its callers expected it to report whether t is an actual Go pointer. Resolve this by renaming t.IsPtr to t.IsPtrShaped and adding a new t.IsPtr method to report Go pointer types. Updated a couple callers in gc/ssa.go to use IsPtr instead of IsPtrShaped. Passes toolstash -cmp. Updates #15028. Change-Id: I0a8154b5822ad8a6ad296419126ad01a3d2a5dc5 Reviewed-on: https://go-review.googlesource.com/21232 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-03-28 10:55:44 -07:00
if to.IsPtrShaped() != from.IsPtrShaped() {
[dev.ssa] cmd/compile: be safer about uintptr/unsafe.Pointer conversions Make sure that when a pointer value is live across a function call, we save it as a pointer. (And similarly a uintptr live across a function call should not be saved as a pointer.) Add a nasty test case. This is probably what is preventing the merge from master to dev.ssa. Signs point to something like this bug happening in mallocgc. Change-Id: Ib23fa1251b8d1c50d82c6a448cb4a4fc28219029 Reviewed-on: https://go-review.googlesource.com/16830 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-10 15:35:36 -08:00
return s.newValue2(ssa.OpConvert, to, x, s.mem())
[dev.ssa] cmd/compile: enhance SSA filtering, add OpConvert Modified GOSSA{HASH.PKG} environment variable filters to make it easier to make/run with all SSA for testing. Disable attempts at SSA for architectures that are not amd64 (avoid spurious errors/unimplementeds.) Removed easy out for unimplemented features. Add convert op for proper liveness in presence of uintptr to/from unsafe.Pointer conversions. Tweaked stack sizes to get a pass on windows; 1024 instead 768, was observed to pass at least once. Change-Id: Ida3800afcda67d529e3b1cf48ca4a3f0fa48b2c5 Reviewed-on: https://go-review.googlesource.com/16201 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-19 11:36:07 -04:00
}
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
v := s.newValue1(ssa.OpCopy, to, x) // ensure that v has the right type
[dev.ssa] cmd/compile/internal/ssa: implement OCFUNC Change-Id: Ieb9cddf8876bf8cd5ee1705d9210d22c3959e8cc Reviewed-on: https://go-review.googlesource.com/14329 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Todd Neal <todd@tneal.org>
2015-09-07 19:07:02 -05:00
// CONVNOP closure
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if to.Etype == types.TFUNC && from.IsPtrShaped() {
[dev.ssa] cmd/compile/internal/ssa: implement OCFUNC Change-Id: Ieb9cddf8876bf8cd5ee1705d9210d22c3959e8cc Reviewed-on: https://go-review.googlesource.com/14329 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Todd Neal <todd@tneal.org>
2015-09-07 19:07:02 -05:00
return v
}
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
// named <--> unnamed type or typed <--> untyped const
if from.Etype == to.Etype {
return v
}
[dev.ssa] cmd/compile: enhance SSA filtering, add OpConvert Modified GOSSA{HASH.PKG} environment variable filters to make it easier to make/run with all SSA for testing. Disable attempts at SSA for architectures that are not amd64 (avoid spurious errors/unimplementeds.) Removed easy out for unimplemented features. Add convert op for proper liveness in presence of uintptr to/from unsafe.Pointer conversions. Tweaked stack sizes to get a pass on windows; 1024 instead 768, was observed to pass at least once. Change-Id: Ida3800afcda67d529e3b1cf48ca4a3f0fa48b2c5 Reviewed-on: https://go-review.googlesource.com/16201 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-19 11:36:07 -04:00
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
// unsafe.Pointer <--> *T
cmd/compile: consistently use Type.IsUnsafePtr() Passes toolstash-check. Change-Id: Iaeae7cc20e26af733642c7c8c7ca0a059e5b07b2 Reviewed-on: https://go-review.googlesource.com/c/go/+/253657 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-09-09 12:06:18 +07:00
if to.IsUnsafePtr() && from.IsPtrShaped() || from.IsUnsafePtr() && to.IsPtrShaped() {
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
return v
}
cmd/compile: specialize map creation for small hint sizes Handle make(map[any]any) and make(map[any]any, hint) where hint <= BUCKETSIZE special to allow for faster map initialization and to improve binary size by using runtime calls with fewer arguments. Given hint is smaller or equal to BUCKETSIZE in which case overLoadFactor(hint, 0) is false and no buckets would be allocated by makemap: * If hmap needs to be allocated on the stack then only hmap's hash0 field needs to be initialized and no call to makemap is needed. * If hmap needs to be allocated on the heap then a new special makehmap function will allocate hmap and intialize hmap's hash0 field. Reduces size of the godoc by ~36kb. AMD64 name old time/op new time/op delta NewEmptyMap 16.6ns ± 2% 5.5ns ± 2% -66.72% (p=0.000 n=10+10) NewSmallMap 64.8ns ± 1% 56.5ns ± 1% -12.75% (p=0.000 n=9+10) Updates #6853 Change-Id: I624e90da6775afaa061178e95db8aca674f44e9b Reviewed-on: https://go-review.googlesource.com/61190 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-02 18:46:59 +02:00
// map <--> *hmap
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if to.Etype == types.TMAP && from.IsPtr() &&
cmd/compile: specialize map creation for small hint sizes Handle make(map[any]any) and make(map[any]any, hint) where hint <= BUCKETSIZE special to allow for faster map initialization and to improve binary size by using runtime calls with fewer arguments. Given hint is smaller or equal to BUCKETSIZE in which case overLoadFactor(hint, 0) is false and no buckets would be allocated by makemap: * If hmap needs to be allocated on the stack then only hmap's hash0 field needs to be initialized and no call to makemap is needed. * If hmap needs to be allocated on the heap then a new special makehmap function will allocate hmap and intialize hmap's hash0 field. Reduces size of the godoc by ~36kb. AMD64 name old time/op new time/op delta NewEmptyMap 16.6ns ± 2% 5.5ns ± 2% -66.72% (p=0.000 n=10+10) NewSmallMap 64.8ns ± 1% 56.5ns ± 1% -12.75% (p=0.000 n=9+10) Updates #6853 Change-Id: I624e90da6775afaa061178e95db8aca674f44e9b Reviewed-on: https://go-review.googlesource.com/61190 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-02 18:46:59 +02:00
to.MapType().Hmap == from.Elem() {
return v
}
cmd/compile: add sizeCalculationDisabled flag Use it to ensure that dowidth is not called from the backend on a type whose size has not yet been calculated. This is an alternative to CL 42016. Change-Id: I8c7b4410ee4c2a68573102f6b9b635f4fdcf392e Reviewed-on: https://go-review.googlesource.com/42018 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 16:37:25 -07:00
dowidth(from)
dowidth(to)
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
if from.Width != to.Width {
s.Fatalf("CONVNOP width mismatch %v (%d) -> %v (%d)\n", from, from.Width, to, to.Width)
return nil
}
if etypesign(from.Etype) != etypesign(to.Etype) {
cmd/compile: use gc.Etype's String method Passes toolstash -cmp. Change-Id: I42c962cc5a3ffec2969f223cf238c2fdadbf5857 Reviewed-on: https://go-review.googlesource.com/22381 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-04-22 08:39:56 -07:00
s.Fatalf("CONVNOP sign mismatch %v (%s) -> %v (%s)\n", from, from.Etype, to, to.Etype)
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
return nil
}
cmd/compile: s/flag_race/instrumenting/ in OCONVNOP check This check seems to apply to all code instrumentation, not just -race. Fixes #14589. Change-Id: I16ae07749ede7c1e6ed06f472711638d195034ac Reviewed-on: https://go-review.googlesource.com/20113 Run-TryBot: Ian Lance Taylor <iant@golang.org> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Marvin Stenger <marvin.stenger94@gmail.com>
2016-03-01 15:17:34 -08:00
if instrumenting {
[dev.ssa] cmd/compile: fill remaining SSA gaps Changed racewalk/race detector to use FP in a more sensible way. Relaxed checks for CONVNOP when race detecting. Modified tighten to ensure that GetClosurePtr cannot float out of entry block (turns out this cannot be relaxed, DX is sometimes stomped by other code accompanying race detection). Added case for addr(CONVNOP) Modified addr to take "bounded" flag to suppress nilchecks where it is set (usually, by race detector). Cannot leave unimplemented-complainer enabled because it turns out we are optimistically running SSA on every platform. Change-Id: Ife021654ee4065b3ffac62326d09b4b317b9f2e0 Reviewed-on: https://go-review.googlesource.com/15710 Reviewed-by: Keith Randall <khr@golang.org>
2015-10-09 16:48:30 -04:00
// These appear to be fine, but they fail the
// integer constraint below, so okay them here.
// Sample non-integer conversion: map[string]string -> *uint8
return v
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
}
if etypesign(from.Etype) == 0 {
s.Fatalf("CONVNOP unrecognized non-integer %v -> %v\n", from, to)
return nil
}
// integer, same width, same sign
return v
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONV:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
x := s.expr(n.Left())
ft := n.Left().Type() // from type
tt := n.Type() // to type
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if ft.IsBoolean() && tt.IsKind(types.TUINT8) {
cmd/compile, runtime: convert byte-sized values to interfaces without allocation Based in part on khr's CL 2500. Updates #17725 Updates #18121 Change-Id: I744e1f92fc2104e6c5bd883a898c30b2eea8cc31 Reviewed-on: https://go-review.googlesource.com/35555 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-01-21 19:52:09 -08:00
// Bool -> uint8 is generated internally when indexing into runtime.staticbyte.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(ssa.OpCopy, n.Type(), x)
cmd/compile, runtime: convert byte-sized values to interfaces without allocation Based in part on khr's CL 2500. Updates #17725 Updates #18121 Change-Id: I744e1f92fc2104e6c5bd883a898c30b2eea8cc31 Reviewed-on: https://go-review.googlesource.com/35555 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-01-21 19:52:09 -08:00
}
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
if ft.IsInteger() && tt.IsInteger() {
var op ssa.Op
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if tt.Size() == ft.Size() {
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
op = ssa.OpCopy
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
} else if tt.Size() < ft.Size() {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
// truncation
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch 10*ft.Size() + tt.Size() {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
case 21:
op = ssa.OpTrunc16to8
case 41:
op = ssa.OpTrunc32to8
case 42:
op = ssa.OpTrunc32to16
case 81:
op = ssa.OpTrunc64to8
case 82:
op = ssa.OpTrunc64to16
case 84:
op = ssa.OpTrunc64to32
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird integer truncation %v -> %v", ft, tt)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
} else if ft.IsSigned() {
// sign extension
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch 10*ft.Size() + tt.Size() {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
case 12:
op = ssa.OpSignExt8to16
case 14:
op = ssa.OpSignExt8to32
case 18:
op = ssa.OpSignExt8to64
case 24:
op = ssa.OpSignExt16to32
case 28:
op = ssa.OpSignExt16to64
case 48:
op = ssa.OpSignExt32to64
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad integer sign extension %v -> %v", ft, tt)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
} else {
// zero extension
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch 10*ft.Size() + tt.Size() {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
case 12:
op = ssa.OpZeroExt8to16
case 14:
op = ssa.OpZeroExt8to32
case 18:
op = ssa.OpZeroExt8to64
case 24:
op = ssa.OpZeroExt16to32
case 28:
op = ssa.OpZeroExt16to64
case 48:
op = ssa.OpZeroExt32to64
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird integer sign extension %v -> %v", ft, tt)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(op, n.Type(), x)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
if ft.IsFloat() || tt.IsFloat() {
conv, ok := fpConvOpToSSA[twoTypes{s.concreteEtype(ft), s.concreteEtype(tt)}]
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
if s.config.RegSize == 4 && thearch.LinkArch.Family != sys.MIPS && !s.softFloat {
[dev.ssa] cmd/compile: handle floating point on ARM Machine supports (or the runtime simulates in soft float mode) (u)int32<->float conversions. The frontend rewrites int64<->float conversions to call to runtime function. For int64->float32 conversion, the frontend generates . . AS u(100) l(10) tc(1) . . . NAME-main.~r1 u(1) a(true) g(1) l(9) x(8+0) class(PPARAMOUT) f(1) float32 . . . CALLFUNC u(100) l(10) tc(1) float32 . . . . NAME-runtime.int64tofloat64 u(1) a(true) x(0+0) class(PFUNC) tc(1) used(true) FUNC-func(int64) float64 The CALLFUNC node has type float32, whereas runtime.int64tofloat64 returns float64. The legacy backend implicitly makes a float64->float32 conversion. The SSA backend does not do implicit conversion, so we insert an explicit CONV here. All cmd/compile/internal/gc/testdata/*_ssa.go tests passed. Progress on SSA for ARM. Still not complete. Update #15365. Change-Id: I30937c8ff977271246b068f48224693776804339 Reviewed-on: https://go-review.googlesource.com/23652 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-31 11:27:16 -04:00
if conv1, ok1 := fpConvOpToSSA32[twoTypes{s.concreteEtype(ft), s.concreteEtype(tt)}]; ok1 {
conv = conv1
}
}
cmd/compile: lower float to uint conversions on s390x Add rules for lowering float <-> unsigned int on s390x. During compilation, Cvt64Uto64F rule triggers around 80 times, Cvt64Fto64U rule triggers around 20 times, Cvt64Uto32F rule triggers around 5 times. Change-Id: If4c9d128b9132fce8c0bea9abc09cb43a5df7989 Reviewed-on: https://go-review.googlesource.com/c/go/+/209177 Reviewed-by: Michael Munday <mike.munday@ibm.com> Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-11-26 10:52:43 -05:00
if thearch.LinkArch.Family == sys.ARM64 || thearch.LinkArch.Family == sys.Wasm || thearch.LinkArch.Family == sys.S390X || s.softFloat {
cmd/compile: add more ARM64 optimizations - Use machine instructions for uint64<->float conversions - Do not enforce alignment on Zero/Move ARM64 supports unaligned load/stores, but only aligned offset or small offset can be encoded into instructions. - Do combined loads Change-Id: Iffca7dd0f13070b17b784861ce5a30af584680eb Reviewed-on: https://go-review.googlesource.com/27086 Reviewed-by: David Chase <drchase@google.com>
2016-08-16 14:17:33 -04:00
if conv1, ok1 := uint64fpConvOpToSSA[twoTypes{s.concreteEtype(ft), s.concreteEtype(tt)}]; ok1 {
conv = conv1
}
}
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
if thearch.LinkArch.Family == sys.MIPS && !s.softFloat {
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == 4 && ft.IsInteger() && !ft.IsSigned() {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// tt is float32 or float64, and ft is also unsigned
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if tt.Size() == 4 {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint32Tofloat32(n, x, ft, tt)
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if tt.Size() == 8 {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint32Tofloat64(n, x, ft, tt)
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
} else if tt.Size() == 4 && tt.IsInteger() && !tt.IsSigned() {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// ft is float32 or float64, and tt is unsigned integer
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == 4 {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.float32ToUint32(n, x, ft, tt)
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == 8 {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.float64ToUint32(n, x, ft, tt)
}
}
}
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
if !ok {
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird float conversion %v -> %v", ft, tt)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
op1, op2, it := conv.op1, conv.op2, conv.intermediateType
if op1 != ssa.OpInvalid && op2 != ssa.OpInvalid {
// normal case, not tripping over unsigned 64
if op1 == ssa.OpCopy {
if op2 == ssa.OpCopy {
return x
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValueOrSfCall1(op2, n.Type(), x)
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
if op2 == ssa.OpCopy {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValueOrSfCall1(op1, n.Type(), x)
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValueOrSfCall1(op2, n.Type(), s.newValueOrSfCall1(op1, types.Types[it], x))
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
}
// Tricky 64-bit unsigned cases.
if ft.IsInteger() {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// tt is float32 or float64, and ft is also unsigned
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if tt.Size() == 4 {
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
return s.uint64Tofloat32(n, x, ft, tt)
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if tt.Size() == 8 {
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
return s.uint64Tofloat64(n, x, ft, tt)
}
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird unsigned integer to float conversion %v -> %v", ft, tt)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// ft is float32 or float64, and tt is unsigned integer
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == 4 {
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
return s.float32ToUint64(n, x, ft, tt)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == 8 {
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
return s.float64ToUint64(n, x, ft, tt)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird float to unsigned integer conversion %v -> %v", ft, tt)
[dev.ssa] cmd/compile: cleanup fp conversions in ssa.go Change to table-driven instead of branchy code; leads to net reduction in lines, easier to understand what happens, easier to modify code if we want option to exclude generation of branchy cases. Doesn't appear to scale for 8x8 case of integer types. Change-Id: Ib40104b149d30bb329c5782f6cac45c75743e768 Reviewed-on: https://go-review.googlesource.com/14163 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-01 17:09:00 -04:00
return nil
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
if ft.IsComplex() && tt.IsComplex() {
var op ssa.Op
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if ft.Size() == tt.Size() {
switch ft.Size() {
cmd/compile: emit fused multiply-{add,subtract} instructions on s390x Explcitly block fused multiply-add pattern matching when a cast is used after the multiplication, for example: - (a * b) + c // can emit fused multiply-add - float64(a * b) + c // cannot emit fused multiply-add float{32,64} and complex{64,128} casts of matching types are now kept as OCONV operations rather than being replaced with OCONVNOP operations because they now imply a rounding operation (and therefore aren't a no-op anymore). Operations (for example, multiplication) on complex types may utilize fused multiply-add and -subtract instructions internally. There is no way to disable this behavior at the moment. Improves the performance of the floating point implementation of poly1305: name old speed new speed delta 64 246MB/s ± 0% 275MB/s ± 0% +11.48% (p=0.000 n=10+8) 1K 312MB/s ± 0% 357MB/s ± 0% +14.41% (p=0.000 n=10+10) 64Unaligned 246MB/s ± 0% 274MB/s ± 0% +11.43% (p=0.000 n=10+10) 1KUnaligned 312MB/s ± 0% 357MB/s ± 0% +14.39% (p=0.000 n=10+8) Updates #17895. Change-Id: Ia771d275bb9150d1a598f8cc773444663de5ce16 Reviewed-on: https://go-review.googlesource.com/36963 Run-TryBot: Michael Munday <munday@ca.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-12 22:12:12 -05:00
case 8:
op = ssa.OpRound32F
case 16:
op = ssa.OpRound64F
default:
s.Fatalf("weird complex conversion %v -> %v", ft, tt)
}
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
} else if ft.Size() == 8 && tt.Size() == 16 {
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
op = ssa.OpCvt32Fto64F
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
} else if ft.Size() == 16 && tt.Size() == 8 {
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
op = ssa.OpCvt64Fto32F
} else {
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("weird complex conversion %v -> %v", ft, tt)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
ftp := floatForComplex(ft)
ttp := floatForComplex(tt)
return s.newValue2(ssa.OpComplexMake, tt,
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
s.newValueOrSfCall1(op, ttp, s.newValue1(ssa.OpComplexReal, ftp, x)),
s.newValueOrSfCall1(op, ttp, s.newValue1(ssa.OpComplexImag, ftp, x)))
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("unhandled OCONV %s -> %s", n.Left().Type().Etype, n.Type().Etype)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
return nil
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOTTYPE:
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
res, _ := s.dottype(n, false)
return res
[dev.ssa] cmd/compile/ssa: add comparison ops Increase SSA coverage of functions in the standard library from 20.79% to 27.81%. The most significant unimplemented items are now: 10.16% 2597 SSA unimplemented: zero for type error not implemented 8.44% 2157 SSA unimplemented: addr: bad op DOTPTR 7.98% 2039 SSA unimplemented: unhandled OLITERAL 7 6.29% 1607 SSA unimplemented: unhandled expr OROR 4.73% 1209 SSA unimplemented: unhandled expr LEN 4.55% 1163 SSA unimplemented: unhandled expr LROT 3.42% 874 SSA unimplemented: unhandled OLITERAL 6 2.46% 629 SSA unimplemented: unhandled expr DOT 2.41% 615 SSA unimplemented: zero for type []byte not implemented 2.02% 516 SSA unimplemented: unhandled stmt CALLMETH 1.90% 486 SSA unimplemented: unhandled expr ANDAND 1.79% 458 SSA unimplemented: unhandled expr CALLINTER 1.69% 433 SSA unimplemented: unhandled stmt SWITCH 1.67% 428 SSA unimplemented: unhandled expr CALLMETH 1.67% 426 SSA unimplemented: unhandled expr CLOSUREVAR Change-Id: I40959b22993c4f70784b4eca472cae752347879c Reviewed-on: https://go-review.googlesource.com/11452 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-24 17:48:22 -07:00
// binary ops
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLT, ir.OEQ, ir.ONE, ir.OLE, ir.OGE, ir.OGT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
if n.Left().Type().IsComplex() {
pt := floatForComplex(n.Left().Type())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
op := s.ssaOp(ir.OEQ, pt)
r := s.newValueOrSfCall2(op, types.Types[types.TBOOL], s.newValue1(ssa.OpComplexReal, pt, a), s.newValue1(ssa.OpComplexReal, pt, b))
i := s.newValueOrSfCall2(op, types.Types[types.TBOOL], s.newValue1(ssa.OpComplexImag, pt, a), s.newValue1(ssa.OpComplexImag, pt, b))
c := s.newValue2(ssa.OpAndB, types.Types[types.TBOOL], r, i)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OEQ:
[dev.ssa] cmd/compile/internal/ssa: add == and != for complex Change-Id: Iefabce4eb0dbc313dd1863513b45307cc76c545a Reviewed-on: https://go-review.googlesource.com/14468 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-10 11:05:42 -07:00
return c
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONE:
return s.newValue1(ssa.OpNot, types.Types[types.TBOOL], c)
[dev.ssa] cmd/compile/internal/ssa: add == and != for complex Change-Id: Iefabce4eb0dbc313dd1863513b45307cc76c545a Reviewed-on: https://go-review.googlesource.com/14468 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-10 11:05:42 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("ordered complex compare %v", n.Op())
[dev.ssa] cmd/compile/internal/ssa: add == and != for complex Change-Id: Iefabce4eb0dbc313dd1863513b45307cc76c545a Reviewed-on: https://go-review.googlesource.com/14468 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-10 11:05:42 -07:00
}
}
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
cmd/compile: delete the floating point Greater and Geq ops Extend CL 220417 (which removed the integer Greater and Geq ops) to floating point comparisons. Greater and Geq can always be implemented using Less and Leq. Fixes #37316. Change-Id: Ieaddb4877dd0ff9037a1dd11d0a9a9e45ced71e7 Reviewed-on: https://go-review.googlesource.com/c/go/+/222397 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-06 22:20:45 +00:00
// Convert OGE and OGT into OLE and OLT.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
op := n.Op()
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
switch op {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OGE:
op, a, b = ir.OLE, b, a
case ir.OGT:
op, a, b = ir.OLT, b, a
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsFloat() {
cmd/compile: delete the floating point Greater and Geq ops Extend CL 220417 (which removed the integer Greater and Geq ops) to floating point comparisons. Greater and Geq can always be implemented using Less and Leq. Fixes #37316. Change-Id: Ieaddb4877dd0ff9037a1dd11d0a9a9e45ced71e7 Reviewed-on: https://go-review.googlesource.com/c/go/+/222397 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-06 22:20:45 +00:00
// float comparison
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValueOrSfCall2(s.ssaOp(op, n.Left().Type()), types.Types[types.TBOOL], a, b)
cmd/compile: delete the floating point Greater and Geq ops Extend CL 220417 (which removed the integer Greater and Geq ops) to floating point comparisons. Greater and Geq can always be implemented using Less and Leq. Fixes #37316. Change-Id: Ieaddb4877dd0ff9037a1dd11d0a9a9e45ced71e7 Reviewed-on: https://go-review.googlesource.com/c/go/+/222397 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-06 22:20:45 +00:00
}
// integer comparison
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaOp(op, n.Left().Type()), types.Types[types.TBOOL], a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OMUL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
if n.Type().IsComplex() {
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
mulop := ssa.OpMul64F
addop := ssa.OpAdd64F
subop := ssa.OpSub64F
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pt := floatForComplex(n.Type()) // Could be Float32 or Float64
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
wt := types.Types[types.TFLOAT64] // Compute in Float64 to minimize cancellation error
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
areal := s.newValue1(ssa.OpComplexReal, pt, a)
breal := s.newValue1(ssa.OpComplexReal, pt, b)
aimag := s.newValue1(ssa.OpComplexImag, pt, a)
bimag := s.newValue1(ssa.OpComplexImag, pt, b)
if pt != wt { // Widen for calculation
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
areal = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, areal)
breal = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, breal)
aimag = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, aimag)
bimag = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, bimag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
xreal := s.newValueOrSfCall2(subop, wt, s.newValueOrSfCall2(mulop, wt, areal, breal), s.newValueOrSfCall2(mulop, wt, aimag, bimag))
ximag := s.newValueOrSfCall2(addop, wt, s.newValueOrSfCall2(mulop, wt, areal, bimag), s.newValueOrSfCall2(mulop, wt, aimag, breal))
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
if pt != wt { // Narrow to store back
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
xreal = s.newValueOrSfCall1(ssa.OpCvt64Fto32F, pt, xreal)
ximag = s.newValueOrSfCall1(ssa.OpCvt64Fto32F, pt, ximag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpComplexMake, n.Type(), xreal, ximag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().IsFloat() {
return s.newValueOrSfCall2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODIV:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
if n.Type().IsComplex() {
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
// TODO this is not executed because the front-end substitutes a runtime call.
// That probably ought to change; with modest optimization the widen/narrow
// conversions could all be elided in larger expression trees.
mulop := ssa.OpMul64F
addop := ssa.OpAdd64F
subop := ssa.OpSub64F
divop := ssa.OpDiv64F
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pt := floatForComplex(n.Type()) // Could be Float32 or Float64
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
wt := types.Types[types.TFLOAT64] // Compute in Float64 to minimize cancellation error
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
areal := s.newValue1(ssa.OpComplexReal, pt, a)
breal := s.newValue1(ssa.OpComplexReal, pt, b)
aimag := s.newValue1(ssa.OpComplexImag, pt, a)
bimag := s.newValue1(ssa.OpComplexImag, pt, b)
if pt != wt { // Widen for calculation
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
areal = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, areal)
breal = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, breal)
aimag = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, aimag)
bimag = s.newValueOrSfCall1(ssa.OpCvt32Fto64F, wt, bimag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
denom := s.newValueOrSfCall2(addop, wt, s.newValueOrSfCall2(mulop, wt, breal, breal), s.newValueOrSfCall2(mulop, wt, bimag, bimag))
xreal := s.newValueOrSfCall2(addop, wt, s.newValueOrSfCall2(mulop, wt, areal, breal), s.newValueOrSfCall2(mulop, wt, aimag, bimag))
ximag := s.newValueOrSfCall2(subop, wt, s.newValueOrSfCall2(mulop, wt, aimag, breal), s.newValueOrSfCall2(mulop, wt, areal, bimag))
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
// TODO not sure if this is best done in wide precision or narrow
// Double-rounding might be an issue.
// Note that the pre-SSA implementation does the entire calculation
// in wide format, so wide is compatible.
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
xreal = s.newValueOrSfCall2(divop, wt, xreal, denom)
ximag = s.newValueOrSfCall2(divop, wt, ximag, denom)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
if pt != wt { // Narrow to store back
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
xreal = s.newValueOrSfCall1(ssa.OpCvt64Fto32F, pt, xreal)
ximag = s.newValueOrSfCall1(ssa.OpCvt64Fto32F, pt, ximag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpComplexMake, n.Type(), xreal, ximag)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().IsFloat() {
return s.newValueOrSfCall2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
[dev.ssa] cmd/compile: make zero-divide panic from div/mod explicit Added an explicit compare-zero and branch-to-panic for integer division and mod so that other optimizations will not be fooled by their implicit panics. Change-Id: Ibf96f636b541c0088861907c537a6beb4b99fa4c Reviewed-on: https://go-review.googlesource.com/16450 Reviewed-by: Keith Randall <khr@golang.org>
2015-10-28 13:55:46 -04:00
}
cmd/compile: omit some temp panicdivide calls When the divisor is known to be a constant non-zero, don't insert panicdivide calls that will just be eliminated later. The main benefit here is readability of the SSA form for compiler developers. Change-Id: Icb7d07fc996941fbaff84524ac3e4b53d8e75fda Reviewed-on: https://go-review.googlesource.com/28530 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-04 16:59:46 -07:00
return s.intDivide(n, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OMOD:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
cmd/compile: omit some temp panicdivide calls When the divisor is known to be a constant non-zero, don't insert panicdivide calls that will just be eliminated later. The main benefit here is readability of the SSA form for compiler developers. Change-Id: Icb7d07fc996941fbaff84524ac3e4b53d8e75fda Reviewed-on: https://go-review.googlesource.com/28530 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-04 16:59:46 -07:00
return s.intDivide(n, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OADD, ir.OSUB:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
if n.Type().IsComplex() {
pt := floatForComplex(n.Type())
op := s.ssaOp(n.Op(), pt)
return s.newValue2(ssa.OpComplexMake, n.Type(),
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
s.newValueOrSfCall2(op, pt, s.newValue1(ssa.OpComplexReal, pt, a), s.newValue1(ssa.OpComplexReal, pt, b)),
s.newValueOrSfCall2(op, pt, s.newValue1(ssa.OpComplexImag, pt, a), s.newValue1(ssa.OpComplexImag, pt, b)))
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().IsFloat() {
return s.newValueOrSfCall2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAND, ir.OOR, ir.OXOR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
return s.newValue2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OANDNOT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
b = s.newValue1(s.ssaOp(ir.OBITNOT, b.Type), b.Type, b)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaOp(ir.OAND, n.Type()), a.Type, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLSH, ir.ORSH:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
b := s.expr(n.Right())
cmd/compile: implement shifts by signed amounts Allow shifts by signed amounts. Panic if the shift amount is negative. TODO: We end up doing two compares per shift, see Ian's comment https://github.com/golang/go/issues/19113#issuecomment-443241799 that we could do it with a single comparison in the normal case. The prove pass mostly handles this code well. For instance, it removes the <0 check for cases like this: if s >= 0 { _ = x << s } _ = x << len(a) This case isn't handled well yet: _ = x << (y & 0xf) I'll do followon CLs for unhandled cases as needed. Update #19113 R=go1.13 Change-Id: I839a5933d94b54ab04deb9dd5149f32c51c90fa1 Reviewed-on: https://go-review.googlesource.com/c/158719 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-20 10:52:11 -08:00
bt := b.Type
if bt.IsSigned() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp := s.newValue2(s.ssaOp(ir.OLE, bt), types.Types[types.TBOOL], s.zeroVal(bt), b)
cmd/compile: implement shifts by signed amounts Allow shifts by signed amounts. Panic if the shift amount is negative. TODO: We end up doing two compares per shift, see Ian's comment https://github.com/golang/go/issues/19113#issuecomment-443241799 that we could do it with a single comparison in the normal case. The prove pass mostly handles this code well. For instance, it removes the <0 check for cases like this: if s >= 0 { _ = x << s } _ = x << len(a) This case isn't handled well yet: _ = x << (y & 0xf) I'll do followon CLs for unhandled cases as needed. Update #19113 R=go1.13 Change-Id: I839a5933d94b54ab04deb9dd5149f32c51c90fa1 Reviewed-on: https://go-review.googlesource.com/c/158719 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-20 10:52:11 -08:00
s.check(cmp, panicshift)
bt = bt.ToUnsigned()
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaShiftOp(n.Op(), n.Type(), bt), a.Type, a, b)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OANDAND, ir.OOROR:
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
// To implement OANDAND (and OOROR), we introduce a
// new temporary variable to hold the result. The
// variable is associated with the OANDAND node in the
// s.vars table (normally variables are only
// associated with ONAME nodes). We convert
// A && B
// to
// var = A
// if var {
// var = B
// }
// Using var in the subsequent block introduces the
// necessary phi variable.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
el := s.expr(n.Left())
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
s.vars[n] = el
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(el)
[dev.ssa] cmd/compile: initial implementation of likely direction Change-Id: Id8457b18c07bf717d13c9423d8f314f253eee64f Reviewed-on: https://go-review.googlesource.com/13580 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-11 17:28:56 -07:00
// In theory, we should set b.Likely here based on context.
// However, gc only gives us likeliness hints
// in a single place, for plain OIF statements,
// and passing around context is finnicky, so don't bother for now.
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
bRight := s.f.NewBlock(ssa.BlockPlain)
bResult := s.f.NewBlock(ssa.BlockPlain)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OANDAND {
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bRight)
b.AddEdgeTo(bResult)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
} else if n.Op() == ir.OOROR {
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bResult)
b.AddEdgeTo(bRight)
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
}
s.startBlock(bRight)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
er := s.expr(n.Right())
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
s.vars[n] = er
b = s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bResult)
[dev.ssa] cmd/compile: OANDAND, OOROR Joint hacking with josharian. Hints from matloob and Todd Neal. Now with tests, and OROR. Change-Id: Iff8826fde475691fb72a3eea7396a640b6274af9 Reviewed-on: https://go-review.googlesource.com/12041 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-10 12:58:53 -06:00
s.startBlock(bResult)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TBOOL])
case ir.OCOMPLEX:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
r := s.expr(n.Left())
i := s.expr(n.Right())
return s.newValue2(ssa.OpComplexMake, n.Type(), r, i)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.ssa] cmd/compile: implement OPLUS Change-Id: Iaf282211a717e38b05e5d2661d400d465decad50 Reviewed-on: https://go-review.googlesource.com/14337 Reviewed-by: Keith Randall <khr@golang.org>
2015-09-05 19:28:00 -07:00
// unary ops
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONEG:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
if n.Type().IsComplex() {
tp := floatForComplex(n.Type())
negop := s.ssaOp(n.Op(), tp)
return s.newValue2(ssa.OpComplexMake, n.Type(),
[dev.ssa] cmd/compile: add complex arithmetic Still to do: details, more testing corner cases. (e.g. negative zero) Includes small cleanups for previous CL. Note: complex division is currently done in the runtime, so the division code here is apparently not yet necessary and also not tested. Seems likely better to open code division and expose the widening/narrowing to optimization. Complex64 multiplication and division is done in wide format to avoid cancellation errors; for division, this also happens to be compatible with pre-SSA practice (which uses a single complex128 division function). It would-be-nice to widen for complex128 multiplication intermediates as well, but that is trickier to implement without a handy wider-precision format. Change-Id: I595a4300f68868fb7641852a54674c6b2b78855e Reviewed-on: https://go-review.googlesource.com/14028 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
s.newValue1(negop, tp, s.newValue1(ssa.OpComplexReal, tp, a)),
s.newValue1(negop, tp, s.newValue1(ssa.OpComplexImag, tp, a)))
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(s.ssaOp(n.Op(), n.Type()), a.Type, a)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONOT, ir.OBITNOT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
return s.newValue1(s.ssaOp(n.Op(), n.Type()), a.Type, a)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OIMAG, ir.OREAL:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
return s.newValue1(s.ssaOp(n.Op(), n.Left().Type()), n.Type(), a)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OPLUS:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.expr(n.Left())
[dev.ssa] cmd/compile: implement ONOT Co-hacking with josharian at Gophercon. Change-Id: Ia59dfab676c6ed598c2c25483439cd1395a4ea87 Reviewed-on: https://go-review.googlesource.com/12029 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-10 11:25:48 -06:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OADDR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.addr(n.Left())
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ORESULT:
cmd/compile: enable late expansion for interface calls Includes a few tweaks to Value.copyOf(a) (make it a no-op for a self-copy) and new pattern hack "___" (3 underscores) is like ellipsis, except the replacement doesn't need to have matching ellipsis/underscores. Moved the arg-length check in generated pattern-matching code BEFORE the args are probed, because not all instances of variable length OpFoo will have all the args mentioned in some rule for OpFoo, and when that happens, the compiler panics without the early check. Change-Id: I66de40672b3794a6427890ff96c805a488d783f4 Reviewed-on: https://go-review.googlesource.com/c/go/+/247537 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-07 22:46:43 -04:00
if s.prevCall == nil || s.prevCall.Op != ssa.OpStaticLECall && s.prevCall.Op != ssa.OpInterLECall && s.prevCall.Op != ssa.OpClosureLECall {
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
// Do the old thing
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addr := s.constOffPtrSP(types.NewPtr(n.Type()), n.Offset())
return s.rawLoad(n.Type(), addr)
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
which := s.prevCall.Aux.(*ssa.AuxCall).ResultForOffset(n.Offset())
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
if which == -1 {
// Do the old thing // TODO: Panic instead.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addr := s.constOffPtrSP(types.NewPtr(n.Type()), n.Offset())
return s.rawLoad(n.Type(), addr)
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if canSSAType(n.Type()) {
return s.newValue1I(ssa.OpSelectN, n.Type(), which, s.prevCall)
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addr := s.newValue1I(ssa.OpSelectNAddr, types.NewPtr(n.Type()), which, s.prevCall)
return s.rawLoad(n.Type(), addr)
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
}
[dev.ssa] cmd/compile: implement OINDREG in expr context Change-Id: I1922656c99773255e5bc15b5a2bd79f19a2fe82c Reviewed-on: https://go-review.googlesource.com/12796 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 12:37:46 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODEREF:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.exprPtr(n.Left(), n.Bounded(), n.Pos())
return s.load(n.Type(), p)
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Op() == ir.OSTRUCTLIT {
cmd/compile: handle DOT STRUCTLIT for zero-valued struct in SSA CL 35261 makes SSA handle zero-valued STRUCTLIT, but DOT operation was not handled. Fixes #18994. Change-Id: Ic7976036acca1523b0b14afac4d170797e8aee20 Reviewed-on: https://go-review.googlesource.com/36565 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-02-08 15:31:24 -05:00
// All literals with nonzero fields have already been
// rewritten during walk. Any that remain are just T{}
// or equivalents. Use the zero value.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !isZero(n.Left()) {
s.Fatalf("literal with nonzero value in SSA: %v", n.Left())
cmd/compile: handle DOT STRUCTLIT for zero-valued struct in SSA CL 35261 makes SSA handle zero-valued STRUCTLIT, but DOT operation was not handled. Fixes #18994. Change-Id: Ic7976036acca1523b0b14afac4d170797e8aee20 Reviewed-on: https://go-review.googlesource.com/36565 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-02-08 15:31:24 -05:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.zeroVal(n.Type())
cmd/compile: handle DOT STRUCTLIT for zero-valued struct in SSA CL 35261 makes SSA handle zero-valued STRUCTLIT, but DOT operation was not handled. Fixes #18994. Change-Id: Ic7976036acca1523b0b14afac4d170797e8aee20 Reviewed-on: https://go-review.googlesource.com/36565 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-02-08 15:31:24 -05:00
}
cmd/compile: allow SSA of multi-field structs while instrumenting When we moved racewalk to buildssa, we disabled SSA of structs with 2-4 fields while instrumenting because it caused false dependencies because for "x.f" we would emit (StructSelect (Load (Addr x)) "f") Even though we later simplify this to (Load (OffPtr (Addr x) "f")) the instrumentation saw a load of x in its entirety and would issue appropriate race/msan calls. The fix taken here is to directly emit the OffPtr form when x.f is addressable and can't be represented in SSA form. Change-Id: I0caf37bced52e9c16937466b0ac8cab6d356e525 Reviewed-on: https://go-review.googlesource.com/109360 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-25 12:36:36 -07:00
// If n is addressable and can't be represented in
// SSA, then load just the selected field. This
// prevents false memory dependencies in race/msan
// instrumentation.
if islvalue(n) && !s.canSSA(n) {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
p := s.addr(n)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Type(), p)
cmd/compile: allow SSA of multi-field structs while instrumenting When we moved racewalk to buildssa, we disabled SSA of structs with 2-4 fields while instrumenting because it caused false dependencies because for "x.f" we would emit (StructSelect (Load (Addr x)) "f") Even though we later simplify this to (Load (OffPtr (Addr x) "f")) the instrumentation saw a load of x in its entirety and would issue appropriate race/msan calls. The fix taken here is to directly emit the OffPtr form when x.f is addressable and can't be represented in SSA form. Change-Id: I0caf37bced52e9c16937466b0ac8cab6d356e525 Reviewed-on: https://go-review.googlesource.com/109360 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-25 12:36:36 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := s.expr(n.Left())
return s.newValue1I(ssa.OpStructSelect, n.Type(), int64(fieldIdx(n)), v)
[dev.ssa] cmd/compile/internal/ssa: implement ODOT Implement ODOT. Similar to ArrayIndex, StructSelect selects a field out of a larger Value. We may need more ways to rewrite StructSelect, but StructSelect/Load is the typical way it is used. Change-Id: Ida7b8aab3298f4754eaf9fee733974cf8736e45d Reviewed-on: https://go-review.googlesource.com/12265 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-15 21:33:49 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOTPTR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.exprPtr(n.Left(), n.Bounded(), n.Pos())
p = s.newValue1I(ssa.OpOffPtr, types.NewPtr(n.Type()), n.Offset(), p)
return s.load(n.Type(), p)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OINDEX:
[dev.ssa] cmd/compile: make sure we don't move loads between blocks This can lead to multiple stores being live at once. Do OINDEX and ODOT using addresses & loads instead of specific ops. This keeps SSA values from containing unSSAable types. Change-Id: I79567e9d43cdee09084eb89ea0bd7aa3aad48ada Reviewed-on: https://go-review.googlesource.com/15654 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-09 09:33:29 -07:00
switch {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
case n.Left().Type().IsString():
if n.Bounded() && ir.IsConst(n.Left(), constant.String) && ir.IsConst(n.Right(), constant.Int) {
cmd/compile: "abc"[1] is not an ideal constant "abc"[1] is not like 'b', in that -"abc"[1] is uint8 math, not ideal constant math. Delay the constantification until after ideal constant folding is over. Fixes #11370. Change-Id: Iba2fc00ca2455959e7bab8f4b8b4aac14b1f9858 Reviewed-on: https://go-review.googlesource.com/15740 Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Russ Cox <rsc@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2015-10-10 15:24:34 -04:00
// Replace "abc"[1] with 'b'.
// Delayed until now because "abc"[1] is not an ideal constant.
// See test/fixedbugs/issue11370.go.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue0I(ssa.OpConst8, types.Types[types.TUINT8], int64(int8(n.Left().StringVal()[n.Right().Int64Val()])))
cmd/compile: "abc"[1] is not an ideal constant "abc"[1] is not like 'b', in that -"abc"[1] is uint8 math, not ideal constant math. Delay the constantification until after ideal constant folding is over. Fixes #11370. Change-Id: Iba2fc00ca2455959e7bab8f4b8b4aac14b1f9858 Reviewed-on: https://go-review.googlesource.com/15740 Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Russ Cox <rsc@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2015-10-10 15:24:34 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
i := s.expr(n.Right())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpStringLen, types.Types[types.TINT], a)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.boundsCheck(i, len, ssa.BoundsIndex, n.Bounded())
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
ptrtyp := s.f.Config.Types.BytePtr
[dev.ssa] cmd/compile: make sure we don't move loads between blocks This can lead to multiple stores being live at once. Do OINDEX and ODOT using addresses & loads instead of specific ops. This keeps SSA values from containing unSSAable types. Change-Id: I79567e9d43cdee09084eb89ea0bd7aa3aad48ada Reviewed-on: https://go-review.googlesource.com/15654 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-09 09:33:29 -07:00
ptr := s.newValue1(ssa.OpStringPtr, ptrtyp, a)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if ir.IsConst(n.Right(), constant.Int) {
ptr = s.newValue1I(ssa.OpOffPtr, ptrtyp, n.Right().Int64Val(), ptr)
cmd/compile: use OffPtr when possible OffPtr allocates less and is easier to optimize. With this change, the OffPtr collapsing opt rule matches increase from 160k to 263k, and the Load-after-Store opt rule matches increase from 217 to 853. Change-Id: I763426a3196900f22a367f7f6d8e8047b279653d Reviewed-on: https://go-review.googlesource.com/20273 Run-TryBot: Todd Neal <todd@tneal.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-04 12:34:43 -08:00
} else {
ptr = s.newValue2(ssa.OpAddPtr, ptrtyp, ptr, i)
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.load(types.Types[types.TUINT8], ptr)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
case n.Left().Type().IsSlice():
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
p := s.addr(n)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Left().Type().Elem(), p)
case n.Left().Type().IsArray():
if canSSAType(n.Left().Type()) {
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
// SSA can handle arrays of length at most 1.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
bound := n.Left().Type().NumElem()
a := s.expr(n.Left())
i := s.expr(n.Right())
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
if bound == 0 {
// Bounds check will never succeed. Might as well
// use constants for the bounds check.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
z := s.constInt(types.Types[types.TINT], 0)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.boundsCheck(z, z, ssa.BoundsIndex, false)
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
// The return value won't be live, return junk.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue0(ssa.OpUnknown, n.Type())
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.constInt(types.Types[types.TINT], bound)
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
s.boundsCheck(i, len, ssa.BoundsIndex, n.Bounded()) // checks i == 0
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1I(ssa.OpArraySelect, n.Type(), 0, a)
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
}
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
p := s.addr(n)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Left().Type().Elem(), p)
[dev.ssa] cmd/compile: make sure we don't move loads between blocks This can lead to multiple stores being live at once. Do OINDEX and ODOT using addresses & loads instead of specific ops. This keeps SSA values from containing unSSAable types. Change-Id: I79567e9d43cdee09084eb89ea0bd7aa3aad48ada Reviewed-on: https://go-review.googlesource.com/15654 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-09 09:33:29 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("bad type for index %v", n.Left().Type())
[dev.ssa] cmd/compile: make sure we don't move loads between blocks This can lead to multiple stores being live at once. Do OINDEX and ODOT using addresses & loads instead of specific ops. This keeps SSA values from containing unSSAable types. Change-Id: I79567e9d43cdee09084eb89ea0bd7aa3aad48ada Reviewed-on: https://go-review.googlesource.com/15654 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-09 09:33:29 -07:00
return nil
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLEN, ir.OCAP:
[dev.ssa] cmd/compile/ssa: implement OLEN Change-Id: Ie23b13142fd820d7071a348a8370175e58b76d64 Reviewed-on: https://go-review.googlesource.com/11878 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-03 18:41:28 -07:00
switch {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
case n.Left().Type().IsSlice():
[dev.ssa] cmd/compile: implement OCAP And dependent fixes and misc cleanup. Co-hacking with josharian at Gophercon. Change-Id: Ib85dc13b303929017eb0a4d2fc2f603485f7479b Reviewed-on: https://go-review.googlesource.com/12027 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-10 10:47:28 -06:00
op := ssa.OpSliceLen
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OCAP {
[dev.ssa] cmd/compile: implement OCAP And dependent fixes and misc cleanup. Co-hacking with josharian at Gophercon. Change-Id: Ib85dc13b303929017eb0a4d2fc2f603485f7479b Reviewed-on: https://go-review.googlesource.com/12027 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-10 10:47:28 -06:00
op = ssa.OpSliceCap
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(op, types.Types[types.TINT], s.expr(n.Left()))
case n.Left().Type().IsString(): // string; not reachable for OCAP
return s.newValue1(ssa.OpStringLen, types.Types[types.TINT], s.expr(n.Left()))
case n.Left().Type().IsMap(), n.Left().Type().IsChan():
return s.referenceTypeBuiltin(n, s.expr(n.Left()))
[dev.ssa] cmd/compile/ssa: implement OLEN Change-Id: Ie23b13142fd820d7071a348a8370175e58b76d64 Reviewed-on: https://go-review.googlesource.com/11878 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-03 18:41:28 -07:00
default: // array
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constInt(types.Types[types.TINT], n.Left().Type().NumElem())
[dev.ssa] cmd/compile/ssa: implement OLEN Change-Id: Ie23b13142fd820d7071a348a8370175e58b76d64 Reviewed-on: https://go-review.googlesource.com/11878 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-03 18:41:28 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSPTR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
if n.Left().Type().IsSlice() {
return s.newValue1(ssa.OpSlicePtr, n.Type(), a)
[dev.ssa] cmd/compile: implement OSPTR Change-Id: Iaa40f14a1e3e4393af3c446953ffc315e79a3762 Reviewed-on: https://go-review.googlesource.com/13581 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 10:12:14 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(ssa.OpStringPtr, n.Type(), a)
[dev.ssa] cmd/compile: implement OSPTR Change-Id: Iaa40f14a1e3e4393af3c446953ffc315e79a3762 Reviewed-on: https://go-review.googlesource.com/13581 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 10:12:14 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OITAB:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
return s.newValue1(ssa.OpITab, n.Type(), a)
[dev.ssa] cmd/compile/internal/ssa: implement ITAB Implement ITAB, selecting the itable field of an interface. Soften the lowering check to allow lowerings that leave generic but dead ops behind. (The ITAB lowering does this.) Change-Id: Icc84961dd4060d143602f001311aa1d8be0d7fc0 Reviewed-on: https://go-review.googlesource.com/13144 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-04 15:47:22 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OIDATA:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.expr(n.Left())
return s.newValue1(ssa.OpIData, n.Type(), a)
cmd/compile: inline x, ok := y.(T) where T is a scalar When T is a scalar, there are no runtime calls required, which makes this a clear win. encoding/binary: WriteInts-8 958ns ± 3% 864ns ± 2% -9.80% (p=0.000 n=15+15) This also considerably shrinks a core fmt routine: Before: "".(*pp).printArg t=1 size=3952 args=0x20 locals=0xf0 After: "".(*pp).printArg t=1 size=2624 args=0x20 locals=0x98 Unfortunately, I find it very hard to get stable numbers out of the fmt benchmarks due to thermal scaling. Change-Id: I1278006b030253bf8e48dc7631d18985cdaa143d Reviewed-on: https://go-review.googlesource.com/26659 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org>
2016-06-06 12:38:19 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OEFACE:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
tab := s.expr(n.Left())
data := s.expr(n.Right())
return s.newValue2(ssa.OpIMake, n.Type(), tab, data)
[dev.ssa] cmd/compile: implement OEFACE Change-Id: I32953c4e1d82795bacba9eb94d65cd2e26bfeb87 Reviewed-on: https://go-review.googlesource.com/14339 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-05 19:28:27 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSLICEHEADER:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.expr(n.Left())
l := s.expr(n.List().First())
c := s.expr(n.List().Second())
return s.newValue3(ssa.OpSliceMake, n.Type(), p, l, c)
cmd/compile: move slice construction to callers of makeslice Only return a pointer p to the new slices backing array from makeslice. Makeslice callers then construct sliceheader{p, len, cap} explictly instead of makeslice returning the slice. Reduces go binary size by ~0.2%. Removes 92 (~3.5%) panicindex calls from go binary. Change-Id: I29b7c3b5fe8b9dcec96e2c43730575071cfe8a94 Reviewed-on: https://go-review.googlesource.com/c/141822 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-10-14 22:28:58 +02:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSLICE, ir.OSLICEARR, ir.OSLICE3, ir.OSLICE3ARR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := s.expr(n.Left())
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
var i, j, k *ssa.Value
low, high, max := n.SliceBounds()
if low != nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.expr(low)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
}
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
if high != nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
j = s.expr(high)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
}
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
if max != nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
k = s.expr(max)
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
}
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
p, l, c := s.slice(v, i, j, k, n.Bounded())
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue3(ssa.OpSliceMake, n.Type(), p, l, c)
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSLICESTR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := s.expr(n.Left())
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
var i, j *ssa.Value
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
low, high, _ := n.SliceBounds()
if low != nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.expr(low)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
}
cmd/compile: encapsulate OSLICE* representation As a nice side-effect, this allows us to unify several code paths. The terminology (low, high, max, simple slice expr, full slice expr) is taken from the spec and the examples in the spec. This is a trial run. The plan, probably for Go 1.8, is to change slice expressions to use Node.List instead of OKEY, and to do some similar tree structure changes for other ops. Passes toolstash -cmp. No performance change. all.bash passes with GO_GCFLAGS=-newexport. Updates #15350 Change-Id: Ic1efdc36e79cdb95ae1636e9817a3ac8f83ab1ac Reviewed-on: https://go-review.googlesource.com/22425 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-04-21 11:55:33 -07:00
if high != nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
j = s.expr(high)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
}
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
p, l, _ := s.slice(v, i, j, nil, n.Bounded())
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpStringMake, n.Type(), p, l)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLFUNC:
cmd/compile: inline atomics from runtime/internal/atomic on amd64 Inline atomic reads and writes on amd64. There's no reason to pay the overhead of a call for these. To keep atomic loads from being reordered, we make them return a <value,memory> tuple. Change the meaning of resultInArg0 for tuple-generating ops to mean the first part of the result tuple, not the second. This means we can always put the store part of the tuple last, matching how arguments are laid out. This requires reordering the outputs of add32carry and sub32carry and their descendents in various architectures. benchmark old ns/op new ns/op delta BenchmarkAtomicLoad64-8 2.09 0.26 -87.56% BenchmarkAtomicStore64-8 7.54 5.72 -24.14% TBD (in a different CL): Cas, Or8, ... Change-Id: I713ea88e7da3026c44ea5bdb56ed094b20bc5207 Reviewed-on: https://go-review.googlesource.com/27641 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-23 16:49:28 -07:00
if isIntrinsicCall(n) {
return s.intrinsicCall(n)
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
}
fallthrough
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLINTER, ir.OCALLMETH:
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
return s.callResult(n, callNormal)
[dev.ssa] cmd/compile: implement OGETG Change-Id: I7ecf62cf399c710b4a617803c43e83fce09b8a7d Reviewed-on: https://go-review.googlesource.com/13585 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 11:22:16 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OGETG:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(ssa.OpGetG, n.Type(), s.mem())
[dev.ssa] cmd/compile: implement OGETG Change-Id: I7ecf62cf399c710b4a617803c43e83fce09b8a7d Reviewed-on: https://go-review.googlesource.com/13585 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-12 11:22:16 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OAPPEND:
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
return s.append(n, false)
[dev.ssa] cmd/compile/internal/gc: implement OAPPEND Change-Id: I1fbce8c421c48074a964b4d9481c92fbc3524f80 Reviewed-on: https://go-review.googlesource.com/14525 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-11 11:02:57 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OSTRUCTLIT, ir.OARRAYLIT:
cmd/compile: do not use statictmp for zeroing Also fixes #18687. Change-Id: I7c6d47c71e632adf4c16937a29074621f771844c Reviewed-on: https://go-review.googlesource.com/35261 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-01-16 12:37:11 -05:00
// All literals with nonzero fields have already been
// rewritten during walk. Any that remain are just T{}
// or equivalents. Use the zero value.
cmd/compile/internal/gc: add some Node methods Focus on "isfoo" funcs that take a *Node, and conver them to isFoo methods instead. This makes for more idiomatic Go code, and also more readable func names. Found candidates with grep, and applied most changes with sed. The funcs chosen were isgoconst, isnil, and isblank. All had the same signature, func(*Node) bool. While at it, camelCase the isliteral and iszero function names. Don't move these to methods, as they are only used in the backend part of gc, which might one day be split into a separate package. Passes toolstash -cmp on std cmd. Change-Id: I4df081b12d36c46c253167c8841c5a841f1c5a16 Reviewed-on: https://go-review.googlesource.com/105555 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-04-08 13:39:10 +01:00
if !isZero(n) {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("literal with nonzero value in SSA: %v", n)
cmd/compile: do not use statictmp for zeroing Also fixes #18687. Change-Id: I7c6d47c71e632adf4c16937a29074621f771844c Reviewed-on: https://go-review.googlesource.com/35261 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-01-16 12:37:11 -05:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.zeroVal(n.Type())
cmd/compile: do not use statictmp for zeroing Also fixes #18687. Change-Id: I7c6d47c71e632adf4c16937a29074621f771844c Reviewed-on: https://go-review.googlesource.com/35261 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-01-16 12:37:11 -05:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONEWOBJ:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().Elem().Size() == 0 {
return s.newValue1A(ssa.OpAddr, n.Type(), zerobaseSym, s.sb)
cmd/compile: port callnew to ssa conversion This is part of a general effort to shrink walk. In an ideal world, we'd have an SSA op for allocation, but we don't yet have a good mechanism for introducing function calling during SSA compilation. In the meantime, SSA conversion is a better place for it. This also makes it easier to introduce new optimizations; instead of doing the typecheck walk dance, we can simply write what we want the backend to do. I introduced a new opcode in this change because: (a) It avoids a class of bugs involving correctly detecting whether this ONEW is a "before walk" ONEW or an "after walk" ONEW. It also means that using ONEW or ONEWOBJ in the wrong context will generally result in a faster failure. (b) Opcodes are cheap. (c) It provides a better place to put documentation. This change also is also marginally more performant: name old alloc/op new alloc/op delta Template 39.1MB ± 0% 39.0MB ± 0% -0.14% (p=0.008 n=5+5) Unicode 28.4MB ± 0% 28.4MB ± 0% ~ (p=0.421 n=5+5) GoTypes 132MB ± 0% 132MB ± 0% -0.23% (p=0.008 n=5+5) Compiler 608MB ± 0% 607MB ± 0% -0.25% (p=0.008 n=5+5) SSA 2.04GB ± 0% 2.04GB ± 0% -0.01% (p=0.008 n=5+5) Flate 24.4MB ± 0% 24.3MB ± 0% -0.13% (p=0.008 n=5+5) GoParser 29.3MB ± 0% 29.1MB ± 0% -0.54% (p=0.008 n=5+5) Reflect 84.8MB ± 0% 84.7MB ± 0% -0.21% (p=0.008 n=5+5) Tar 36.7MB ± 0% 36.6MB ± 0% -0.10% (p=0.008 n=5+5) XML 48.7MB ± 0% 48.6MB ± 0% -0.24% (p=0.008 n=5+5) [Geo mean] 85.0MB 84.8MB -0.19% name old allocs/op new allocs/op delta Template 383k ± 0% 382k ± 0% -0.26% (p=0.008 n=5+5) Unicode 341k ± 0% 341k ± 0% ~ (p=0.579 n=5+5) GoTypes 1.37M ± 0% 1.36M ± 0% -0.39% (p=0.008 n=5+5) Compiler 5.59M ± 0% 5.56M ± 0% -0.49% (p=0.008 n=5+5) SSA 16.9M ± 0% 16.9M ± 0% -0.03% (p=0.008 n=5+5) Flate 238k ± 0% 238k ± 0% -0.23% (p=0.008 n=5+5) GoParser 306k ± 0% 303k ± 0% -0.93% (p=0.008 n=5+5) Reflect 990k ± 0% 987k ± 0% -0.33% (p=0.008 n=5+5) Tar 356k ± 0% 355k ± 0% -0.20% (p=0.008 n=5+5) XML 444k ± 0% 442k ± 0% -0.45% (p=0.008 n=5+5) [Geo mean] 848k 845k -0.33% Change-Id: I2c36003a7cbf71b53857b7de734852b698f49310 Reviewed-on: https://go-review.googlesource.com/c/go/+/167957 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-03-17 07:14:12 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
typ := s.expr(n.Left())
vv := s.rtcall(newobject, true, []*types.Type{n.Type()}, typ)
cmd/compile: port callnew to ssa conversion This is part of a general effort to shrink walk. In an ideal world, we'd have an SSA op for allocation, but we don't yet have a good mechanism for introducing function calling during SSA compilation. In the meantime, SSA conversion is a better place for it. This also makes it easier to introduce new optimizations; instead of doing the typecheck walk dance, we can simply write what we want the backend to do. I introduced a new opcode in this change because: (a) It avoids a class of bugs involving correctly detecting whether this ONEW is a "before walk" ONEW or an "after walk" ONEW. It also means that using ONEW or ONEWOBJ in the wrong context will generally result in a faster failure. (b) Opcodes are cheap. (c) It provides a better place to put documentation. This change also is also marginally more performant: name old alloc/op new alloc/op delta Template 39.1MB ± 0% 39.0MB ± 0% -0.14% (p=0.008 n=5+5) Unicode 28.4MB ± 0% 28.4MB ± 0% ~ (p=0.421 n=5+5) GoTypes 132MB ± 0% 132MB ± 0% -0.23% (p=0.008 n=5+5) Compiler 608MB ± 0% 607MB ± 0% -0.25% (p=0.008 n=5+5) SSA 2.04GB ± 0% 2.04GB ± 0% -0.01% (p=0.008 n=5+5) Flate 24.4MB ± 0% 24.3MB ± 0% -0.13% (p=0.008 n=5+5) GoParser 29.3MB ± 0% 29.1MB ± 0% -0.54% (p=0.008 n=5+5) Reflect 84.8MB ± 0% 84.7MB ± 0% -0.21% (p=0.008 n=5+5) Tar 36.7MB ± 0% 36.6MB ± 0% -0.10% (p=0.008 n=5+5) XML 48.7MB ± 0% 48.6MB ± 0% -0.24% (p=0.008 n=5+5) [Geo mean] 85.0MB 84.8MB -0.19% name old allocs/op new allocs/op delta Template 383k ± 0% 382k ± 0% -0.26% (p=0.008 n=5+5) Unicode 341k ± 0% 341k ± 0% ~ (p=0.579 n=5+5) GoTypes 1.37M ± 0% 1.36M ± 0% -0.39% (p=0.008 n=5+5) Compiler 5.59M ± 0% 5.56M ± 0% -0.49% (p=0.008 n=5+5) SSA 16.9M ± 0% 16.9M ± 0% -0.03% (p=0.008 n=5+5) Flate 238k ± 0% 238k ± 0% -0.23% (p=0.008 n=5+5) GoParser 306k ± 0% 303k ± 0% -0.93% (p=0.008 n=5+5) Reflect 990k ± 0% 987k ± 0% -0.33% (p=0.008 n=5+5) Tar 356k ± 0% 355k ± 0% -0.20% (p=0.008 n=5+5) XML 444k ± 0% 442k ± 0% -0.45% (p=0.008 n=5+5) [Geo mean] 848k 845k -0.33% Change-Id: I2c36003a7cbf71b53857b7de734852b698f49310 Reviewed-on: https://go-review.googlesource.com/c/go/+/167957 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-03-17 07:14:12 -07:00
return vv[0]
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("unhandled expr %v", n.Op())
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
return nil
}
}
[dev.ssa] cmd/compile/internal/gc: implement OAPPEND Change-Id: I1fbce8c421c48074a964b4d9481c92fbc3524f80 Reviewed-on: https://go-review.googlesource.com/14525 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-11 11:02:57 -07:00
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// append converts an OAPPEND node to SSA.
// If inplace is false, it converts the OAPPEND expression n to an ssa.Value,
// adds it to s, and returns the Value.
// If inplace is true, it writes the result of the OAPPEND expression n
// back to the slice being appended to, and returns nil.
// inplace MUST be set to false if the slice can be SSA'd.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) append(n ir.Node, inplace bool) *ssa.Value {
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// If inplace is false, process as expression "append(s, e1, e2, e3)":
//
cmd/compile: avoid a spill in append fast path Instead of spilling newlen, recalculate it. This removes a spill from the fast path, at the cost of a cheap recalculation on the (rare) growth path. This uses 8 bytes less of stack space. It generates two more bytes of code, but that is due to suboptimal register allocation; see far below. Runtime append microbenchmarks are all over the map, presumably due to incidental code movement. Sample code: func s(b []byte) []byte { b = append(b, 1, 2, 3) return b } Before: "".s t=1 size=160 args=0x30 locals=0x48 0x0000 00000 (append.go:8) TEXT "".s(SB), $72-48 0x0000 00000 (append.go:8) MOVQ (TLS), CX 0x0009 00009 (append.go:8) CMPQ SP, 16(CX) 0x000d 00013 (append.go:8) JLS 149 0x0013 00019 (append.go:8) SUBQ $72, SP 0x0017 00023 (append.go:8) FUNCDATA $0, gclocals·6432f8c6a0d23fa7bee6c5d96f21a92a(SB) 0x0017 00023 (append.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:9) MOVQ "".b+88(FP), CX 0x001c 00028 (append.go:9) LEAQ 3(CX), DX 0x0020 00032 (append.go:9) MOVQ DX, "".autotmp_0+64(SP) 0x0025 00037 (append.go:9) MOVQ "".b+96(FP), BX 0x002a 00042 (append.go:9) CMPQ DX, BX 0x002d 00045 (append.go:9) JGT $0, 86 0x002f 00047 (append.go:8) MOVQ "".b+80(FP), AX 0x0034 00052 (append.go:9) MOVB $1, (AX)(CX*1) 0x0038 00056 (append.go:9) MOVB $2, 1(AX)(CX*1) 0x003d 00061 (append.go:9) MOVB $3, 2(AX)(CX*1) 0x0042 00066 (append.go:10) MOVQ AX, "".~r1+104(FP) 0x0047 00071 (append.go:10) MOVQ DX, "".~r1+112(FP) 0x004c 00076 (append.go:10) MOVQ BX, "".~r1+120(FP) 0x0051 00081 (append.go:10) ADDQ $72, SP 0x0055 00085 (append.go:10) RET 0x0056 00086 (append.go:9) LEAQ type.[]uint8(SB), AX 0x005d 00093 (append.go:9) MOVQ AX, (SP) 0x0061 00097 (append.go:9) MOVQ "".b+80(FP), BP 0x0066 00102 (append.go:9) MOVQ BP, 8(SP) 0x006b 00107 (append.go:9) MOVQ CX, 16(SP) 0x0070 00112 (append.go:9) MOVQ BX, 24(SP) 0x0075 00117 (append.go:9) MOVQ DX, 32(SP) 0x007a 00122 (append.go:9) PCDATA $0, $0 0x007a 00122 (append.go:9) CALL runtime.growslice(SB) 0x007f 00127 (append.go:9) MOVQ 40(SP), AX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:8) MOVQ "".b+88(FP), CX 0x008e 00142 (append.go:9) MOVQ "".autotmp_0+64(SP), DX 0x0093 00147 (append.go:9) JMP 52 0x0095 00149 (append.go:9) NOP 0x0095 00149 (append.go:8) CALL runtime.morestack_noctxt(SB) 0x009a 00154 (append.go:8) JMP 0 After: "".s t=1 size=176 args=0x30 locals=0x40 0x0000 00000 (append.go:8) TEXT "".s(SB), $64-48 0x0000 00000 (append.go:8) MOVQ (TLS), CX 0x0009 00009 (append.go:8) CMPQ SP, 16(CX) 0x000d 00013 (append.go:8) JLS 151 0x0013 00019 (append.go:8) SUBQ $64, SP 0x0017 00023 (append.go:8) FUNCDATA $0, gclocals·6432f8c6a0d23fa7bee6c5d96f21a92a(SB) 0x0017 00023 (append.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:9) MOVQ "".b+80(FP), CX 0x001c 00028 (append.go:9) LEAQ 3(CX), DX 0x0020 00032 (append.go:9) MOVQ "".b+88(FP), BX 0x0025 00037 (append.go:9) CMPQ DX, BX 0x0028 00040 (append.go:9) JGT $0, 81 0x002a 00042 (append.go:8) MOVQ "".b+72(FP), AX 0x002f 00047 (append.go:9) MOVB $1, (AX)(CX*1) 0x0033 00051 (append.go:9) MOVB $2, 1(AX)(CX*1) 0x0038 00056 (append.go:9) MOVB $3, 2(AX)(CX*1) 0x003d 00061 (append.go:10) MOVQ AX, "".~r1+96(FP) 0x0042 00066 (append.go:10) MOVQ DX, "".~r1+104(FP) 0x0047 00071 (append.go:10) MOVQ BX, "".~r1+112(FP) 0x004c 00076 (append.go:10) ADDQ $64, SP 0x0050 00080 (append.go:10) RET 0x0051 00081 (append.go:9) LEAQ type.[]uint8(SB), AX 0x0058 00088 (append.go:9) MOVQ AX, (SP) 0x005c 00092 (append.go:9) MOVQ "".b+72(FP), BP 0x0061 00097 (append.go:9) MOVQ BP, 8(SP) 0x0066 00102 (append.go:9) MOVQ CX, 16(SP) 0x006b 00107 (append.go:9) MOVQ BX, 24(SP) 0x0070 00112 (append.go:9) MOVQ DX, 32(SP) 0x0075 00117 (append.go:9) PCDATA $0, $0 0x0075 00117 (append.go:9) CALL runtime.growslice(SB) 0x007a 00122 (append.go:9) MOVQ 40(SP), AX 0x007f 00127 (append.go:9) MOVQ 48(SP), CX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:9) ADDQ $3, CX 0x008d 00141 (append.go:9) MOVQ CX, DX 0x0090 00144 (append.go:8) MOVQ "".b+80(FP), CX 0x0095 00149 (append.go:9) JMP 47 0x0097 00151 (append.go:9) NOP 0x0097 00151 (append.go:8) CALL runtime.morestack_noctxt(SB) 0x009c 00156 (append.go:8) JMP 0 Observe that in the following sequence, we should use DX directly instead of using CX as a temporary register, which would make the new code a strict improvement on the old: 0x007f 00127 (append.go:9) MOVQ 48(SP), CX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:9) ADDQ $3, CX 0x008d 00141 (append.go:9) MOVQ CX, DX 0x0090 00144 (append.go:8) MOVQ "".b+80(FP), CX Change-Id: I4ee50b18fa53865901d2d7f86c2cbb54c6fa6924 Reviewed-on: https://go-review.googlesource.com/21812 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:08:00 -07:00
// ptr, len, cap := s
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// newlen := len + 3
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// if newlen > cap {
cmd/compile: avoid a spill in append fast path Instead of spilling newlen, recalculate it. This removes a spill from the fast path, at the cost of a cheap recalculation on the (rare) growth path. This uses 8 bytes less of stack space. It generates two more bytes of code, but that is due to suboptimal register allocation; see far below. Runtime append microbenchmarks are all over the map, presumably due to incidental code movement. Sample code: func s(b []byte) []byte { b = append(b, 1, 2, 3) return b } Before: "".s t=1 size=160 args=0x30 locals=0x48 0x0000 00000 (append.go:8) TEXT "".s(SB), $72-48 0x0000 00000 (append.go:8) MOVQ (TLS), CX 0x0009 00009 (append.go:8) CMPQ SP, 16(CX) 0x000d 00013 (append.go:8) JLS 149 0x0013 00019 (append.go:8) SUBQ $72, SP 0x0017 00023 (append.go:8) FUNCDATA $0, gclocals·6432f8c6a0d23fa7bee6c5d96f21a92a(SB) 0x0017 00023 (append.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:9) MOVQ "".b+88(FP), CX 0x001c 00028 (append.go:9) LEAQ 3(CX), DX 0x0020 00032 (append.go:9) MOVQ DX, "".autotmp_0+64(SP) 0x0025 00037 (append.go:9) MOVQ "".b+96(FP), BX 0x002a 00042 (append.go:9) CMPQ DX, BX 0x002d 00045 (append.go:9) JGT $0, 86 0x002f 00047 (append.go:8) MOVQ "".b+80(FP), AX 0x0034 00052 (append.go:9) MOVB $1, (AX)(CX*1) 0x0038 00056 (append.go:9) MOVB $2, 1(AX)(CX*1) 0x003d 00061 (append.go:9) MOVB $3, 2(AX)(CX*1) 0x0042 00066 (append.go:10) MOVQ AX, "".~r1+104(FP) 0x0047 00071 (append.go:10) MOVQ DX, "".~r1+112(FP) 0x004c 00076 (append.go:10) MOVQ BX, "".~r1+120(FP) 0x0051 00081 (append.go:10) ADDQ $72, SP 0x0055 00085 (append.go:10) RET 0x0056 00086 (append.go:9) LEAQ type.[]uint8(SB), AX 0x005d 00093 (append.go:9) MOVQ AX, (SP) 0x0061 00097 (append.go:9) MOVQ "".b+80(FP), BP 0x0066 00102 (append.go:9) MOVQ BP, 8(SP) 0x006b 00107 (append.go:9) MOVQ CX, 16(SP) 0x0070 00112 (append.go:9) MOVQ BX, 24(SP) 0x0075 00117 (append.go:9) MOVQ DX, 32(SP) 0x007a 00122 (append.go:9) PCDATA $0, $0 0x007a 00122 (append.go:9) CALL runtime.growslice(SB) 0x007f 00127 (append.go:9) MOVQ 40(SP), AX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:8) MOVQ "".b+88(FP), CX 0x008e 00142 (append.go:9) MOVQ "".autotmp_0+64(SP), DX 0x0093 00147 (append.go:9) JMP 52 0x0095 00149 (append.go:9) NOP 0x0095 00149 (append.go:8) CALL runtime.morestack_noctxt(SB) 0x009a 00154 (append.go:8) JMP 0 After: "".s t=1 size=176 args=0x30 locals=0x40 0x0000 00000 (append.go:8) TEXT "".s(SB), $64-48 0x0000 00000 (append.go:8) MOVQ (TLS), CX 0x0009 00009 (append.go:8) CMPQ SP, 16(CX) 0x000d 00013 (append.go:8) JLS 151 0x0013 00019 (append.go:8) SUBQ $64, SP 0x0017 00023 (append.go:8) FUNCDATA $0, gclocals·6432f8c6a0d23fa7bee6c5d96f21a92a(SB) 0x0017 00023 (append.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:9) MOVQ "".b+80(FP), CX 0x001c 00028 (append.go:9) LEAQ 3(CX), DX 0x0020 00032 (append.go:9) MOVQ "".b+88(FP), BX 0x0025 00037 (append.go:9) CMPQ DX, BX 0x0028 00040 (append.go:9) JGT $0, 81 0x002a 00042 (append.go:8) MOVQ "".b+72(FP), AX 0x002f 00047 (append.go:9) MOVB $1, (AX)(CX*1) 0x0033 00051 (append.go:9) MOVB $2, 1(AX)(CX*1) 0x0038 00056 (append.go:9) MOVB $3, 2(AX)(CX*1) 0x003d 00061 (append.go:10) MOVQ AX, "".~r1+96(FP) 0x0042 00066 (append.go:10) MOVQ DX, "".~r1+104(FP) 0x0047 00071 (append.go:10) MOVQ BX, "".~r1+112(FP) 0x004c 00076 (append.go:10) ADDQ $64, SP 0x0050 00080 (append.go:10) RET 0x0051 00081 (append.go:9) LEAQ type.[]uint8(SB), AX 0x0058 00088 (append.go:9) MOVQ AX, (SP) 0x005c 00092 (append.go:9) MOVQ "".b+72(FP), BP 0x0061 00097 (append.go:9) MOVQ BP, 8(SP) 0x0066 00102 (append.go:9) MOVQ CX, 16(SP) 0x006b 00107 (append.go:9) MOVQ BX, 24(SP) 0x0070 00112 (append.go:9) MOVQ DX, 32(SP) 0x0075 00117 (append.go:9) PCDATA $0, $0 0x0075 00117 (append.go:9) CALL runtime.growslice(SB) 0x007a 00122 (append.go:9) MOVQ 40(SP), AX 0x007f 00127 (append.go:9) MOVQ 48(SP), CX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:9) ADDQ $3, CX 0x008d 00141 (append.go:9) MOVQ CX, DX 0x0090 00144 (append.go:8) MOVQ "".b+80(FP), CX 0x0095 00149 (append.go:9) JMP 47 0x0097 00151 (append.go:9) NOP 0x0097 00151 (append.go:8) CALL runtime.morestack_noctxt(SB) 0x009c 00156 (append.go:8) JMP 0 Observe that in the following sequence, we should use DX directly instead of using CX as a temporary register, which would make the new code a strict improvement on the old: 0x007f 00127 (append.go:9) MOVQ 48(SP), CX 0x0084 00132 (append.go:9) MOVQ 56(SP), BX 0x0089 00137 (append.go:9) ADDQ $3, CX 0x008d 00141 (append.go:9) MOVQ CX, DX 0x0090 00144 (append.go:8) MOVQ "".b+80(FP), CX Change-Id: I4ee50b18fa53865901d2d7f86c2cbb54c6fa6924 Reviewed-on: https://go-review.googlesource.com/21812 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:08:00 -07:00
// ptr, len, cap = growslice(s, newlen)
// newlen = len + 3 // recalculate to avoid a spill
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// }
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// // with write barriers, if needed:
// *(ptr+len) = e1
// *(ptr+len+1) = e2
// *(ptr+len+2) = e3
// return makeslice(ptr, newlen, cap)
//
//
// If inplace is true, process as statement "s = append(s, e1, e2, e3)":
//
// a := &s
// ptr, len, cap := s
// newlen := len + 3
cmd/compile: fix length overflow when appending elements to a slice Instead of testing len(slice)+numNewElements > cap(slice) use uint(len(slice)+numNewElements) > uint(cap(slice)) to test if a slice needs to be grown in an append operation. This prevents a possible overflow when len(slice) is near the maximum int value and the addition of a constant number of new elements makes it overflow and wrap around to a negative number which is smaller than the capacity of the slice. Appending a slice to a slice with append(s1, s2...) already used a uint comparison to test slice capacity and therefore was not vulnerable to the same overflow issue. Fixes: #29190 Change-Id: I41733895838b4f80a44f827bf900ce931d8be5ca Reviewed-on: https://go-review.googlesource.com/c/154037 Run-TryBot: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-12-13 17:55:52 +01:00
// if uint(newlen) > uint(cap) {
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
// newptr, len, newcap = growslice(ptr, len, cap, newlen)
// vardef(a) // if necessary, advise liveness we are writing a new a
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// *a.cap = newcap // write before ptr to avoid a spill
// *a.ptr = newptr // with write barrier
// }
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
// newlen = len + 3 // recalculate to avoid a spill
// *a.len = newlen
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// // with write barriers, if needed:
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// *(ptr+len) = e1
// *(ptr+len+1) = e2
// *(ptr+len+2) = e3
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
et := n.Type().Elem()
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
pt := types.NewPtr(et)
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// Evaluate slice
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sn := n.List().First() // the slice node is the first in the list
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
var slice, addr *ssa.Value
if inplace {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr = s.addr(sn)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
slice = s.load(n.Type(), addr)
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
} else {
slice = s.expr(sn)
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// Allocate new blocks
grow := s.f.NewBlock(ssa.BlockPlain)
assign := s.f.NewBlock(ssa.BlockPlain)
// Decide if we need to grow
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
nargs := int64(n.List().Len() - 1)
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
p := s.newValue1(ssa.OpSlicePtr, pt, slice)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
l := s.newValue1(ssa.OpSliceLen, types.Types[types.TINT], slice)
c := s.newValue1(ssa.OpSliceCap, types.Types[types.TINT], slice)
nl := s.newValue2(s.ssaOp(ir.OADD, types.Types[types.TINT]), types.Types[types.TINT], l, s.constInt(types.Types[types.TINT], nargs))
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp := s.newValue2(s.ssaOp(ir.OLT, types.Types[types.TUINT]), types.Types[types.TBOOL], c, nl)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[ptrVar] = p
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
if !inplace {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[newlenVar] = nl
s.vars[capVar] = c
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
} else {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[lenVar] = l
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.Likely = ssa.BranchUnlikely
b.SetControl(cmp)
b.AddEdgeTo(grow)
b.AddEdgeTo(assign)
// Call growslice
s.startBlock(grow)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
taddr := s.expr(n.Left())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
r := s.rtcall(growslice, true, []*types.Type{pt, types.Types[types.TINT], types.Types[types.TINT]}, taddr, p, l, c, nl)
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
if inplace {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if sn.Op() == ir.ONAME && sn.Class() != ir.PEXTERN {
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
// Tell liveness we're about to build a new slice
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarDef, types.TypeMem, sn, s.mem())
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
}
cmd/compile: clean up slice and string offsets/sizes Minor cleanup: * Modernize comments. * Change from int to int64 to avoid conversions. * Use idiomatic names. Passes toolstash-check. Change-Id: I93560c81926c0f4e00f33129cb4846b53bea99e6 Reviewed-on: https://go-review.googlesource.com/c/go/+/227548 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-08 12:36:35 -07:00
capaddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.IntPtr, sliceCapOffset, addr)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TINT], capaddr, r[2])
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(pt, addr, r[0])
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// load the value we just stored to avoid having to spill it
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[ptrVar] = s.load(pt, addr)
s.vars[lenVar] = r[1] // avoid a spill in the fast path
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
} else {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[ptrVar] = r[0]
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.vars[newlenVar] = s.newValue2(s.ssaOp(ir.OADD, types.Types[types.TINT]), types.Types[types.TINT], r[1], s.constInt(types.Types[types.TINT], nargs))
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[capVar] = r[2]
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
b = s.endBlock()
b.AddEdgeTo(assign)
// assign new elements to slots
s.startBlock(assign)
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
if inplace {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
l = s.variable(lenVar, types.Types[types.TINT]) // generates phi for len
nl = s.newValue2(s.ssaOp(ir.OADD, types.Types[types.TINT]), types.Types[types.TINT], l, s.constInt(types.Types[types.TINT], nargs))
cmd/compile: clean up slice and string offsets/sizes Minor cleanup: * Modernize comments. * Change from int to int64 to avoid conversions. * Use idiomatic names. Passes toolstash-check. Change-Id: I93560c81926c0f4e00f33129cb4846b53bea99e6 Reviewed-on: https://go-review.googlesource.com/c/go/+/227548 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-08 12:36:35 -07:00
lenaddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.IntPtr, sliceLenOffset, addr)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TINT], lenaddr, nl)
cmd/compile: re-enable in-place append optimization CL 21891 was too clever in its attempts to avoid spills. Storing newlen too early caused uses of append in the runtime itself to receive an inconsistent view of a slice, leading to corruption. This CL makes the generate code much more similar to the old backend. It spills more than before, but those spills have been contained to the grow path. It recalculates newlen unnecessarily on the fast path, but that's measurably cheaper than spilling it. CL 21891 caused runtime failures in 6 of 2000 runs of net/http and crypto/x509 in my test setup. This CL has gone 6000 runs without a failure. Benchmarks going from master to this CL: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 439ns ± 2% 436ns ± 2% -0.72% (p=0.001 n=28+27) AppendInPlace/NoGrow/1Ptr-8 901ns ± 0% 856ns ± 0% -4.95% (p=0.000 n=26+29) AppendInPlace/NoGrow/2Ptr-8 2.15µs ± 1% 1.95µs ± 0% -9.07% (p=0.000 n=28+30) AppendInPlace/NoGrow/3Ptr-8 2.66µs ± 0% 2.45µs ± 0% -7.93% (p=0.000 n=29+26) AppendInPlace/NoGrow/4Ptr-8 3.24µs ± 1% 3.02µs ± 1% -6.75% (p=0.000 n=28+30) AppendInPlace/Grow/Byte-8 269ns ± 1% 271ns ± 1% +0.84% (p=0.000 n=30+29) AppendInPlace/Grow/1Ptr-8 275ns ± 1% 280ns ± 1% +1.75% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 384ns ± 0% 391ns ± 0% +1.94% (p=0.000 n=27+30) AppendInPlace/Grow/3Ptr-8 455ns ± 0% 462ns ± 0% +1.43% (p=0.000 n=29+29) AppendInPlace/Grow/4Ptr-8 478ns ± 0% 479ns ± 0% +0.23% (p=0.000 n=30+27) However, for the large no-grow cases, there is still more work to be done. Going from this CL to the non-SSA backend: name old time/op new time/op delta AppendInPlace/NoGrow/Byte-8 436ns ± 2% 436ns ± 2% ~ (p=0.967 n=27+29) AppendInPlace/NoGrow/1Ptr-8 856ns ± 0% 884ns ± 0% +3.28% (p=0.000 n=29+26) AppendInPlace/NoGrow/2Ptr-8 1.95µs ± 0% 1.56µs ± 0% -20.28% (p=0.000 n=30+29) AppendInPlace/NoGrow/3Ptr-8 2.45µs ± 0% 1.89µs ± 0% -22.88% (p=0.000 n=26+28) AppendInPlace/NoGrow/4Ptr-8 3.02µs ± 1% 2.56µs ± 1% -15.35% (p=0.000 n=30+28) AppendInPlace/Grow/Byte-8 271ns ± 1% 283ns ± 1% +4.56% (p=0.000 n=29+29) AppendInPlace/Grow/1Ptr-8 280ns ± 1% 288ns ± 1% +2.99% (p=0.000 n=30+30) AppendInPlace/Grow/2Ptr-8 391ns ± 0% 409ns ± 0% +4.66% (p=0.000 n=30+29) AppendInPlace/Grow/3Ptr-8 462ns ± 0% 481ns ± 0% +4.13% (p=0.000 n=29+30) AppendInPlace/Grow/4Ptr-8 479ns ± 0% 502ns ± 0% +4.81% (p=0.000 n=27+26) New generated code: var x []byte func a() { x = append(x, 1) } "".a t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (a.go:5) TEXT "".a(SB), $72-0 0x0000 00000 (a.go:5) MOVQ (TLS), CX 0x0009 00009 (a.go:5) CMPQ SP, 16(CX) 0x000d 00013 (a.go:5) JLS 190 0x0013 00019 (a.go:5) SUBQ $72, SP 0x0017 00023 (a.go:5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (a.go:6) MOVQ "".x+16(SB), CX 0x001e 00030 (a.go:6) MOVQ "".x+8(SB), DX 0x0025 00037 (a.go:6) MOVQ "".x(SB), BX 0x002c 00044 (a.go:6) LEAQ 1(DX), BP 0x0030 00048 (a.go:6) CMPQ BP, CX 0x0033 00051 (a.go:6) JGT $0, 73 0x0035 00053 (a.go:6) LEAQ 1(DX), AX 0x0039 00057 (a.go:6) MOVQ AX, "".x+8(SB) 0x0040 00064 (a.go:6) MOVB $1, (BX)(DX*1) 0x0044 00068 (a.go:7) ADDQ $72, SP 0x0048 00072 (a.go:7) RET 0x0049 00073 (a.go:6) LEAQ type.[]uint8(SB), AX 0x0050 00080 (a.go:6) MOVQ AX, (SP) 0x0054 00084 (a.go:6) MOVQ BX, 8(SP) 0x0059 00089 (a.go:6) MOVQ DX, 16(SP) 0x005e 00094 (a.go:6) MOVQ CX, 24(SP) 0x0063 00099 (a.go:6) MOVQ BP, 32(SP) 0x0068 00104 (a.go:6) PCDATA $0, $0 0x0068 00104 (a.go:6) CALL runtime.growslice(SB) 0x006d 00109 (a.go:6) MOVQ 40(SP), CX 0x0072 00114 (a.go:6) MOVQ 48(SP), DX 0x0077 00119 (a.go:6) MOVQ DX, "".autotmp_0+64(SP) 0x007c 00124 (a.go:6) MOVQ 56(SP), BX 0x0081 00129 (a.go:6) MOVQ BX, "".x+16(SB) 0x0088 00136 (a.go:6) MOVL runtime.writeBarrier(SB), AX 0x008e 00142 (a.go:6) TESTB AL, AL 0x0090 00144 (a.go:6) JNE $0, 162 0x0092 00146 (a.go:6) MOVQ CX, "".x(SB) 0x0099 00153 (a.go:6) MOVQ "".x(SB), BX 0x00a0 00160 (a.go:6) JMP 53 0x00a2 00162 (a.go:6) LEAQ "".x(SB), BX 0x00a9 00169 (a.go:6) MOVQ BX, (SP) 0x00ad 00173 (a.go:6) MOVQ CX, 8(SP) 0x00b2 00178 (a.go:6) PCDATA $0, $0 0x00b2 00178 (a.go:6) CALL runtime.writebarrierptr(SB) 0x00b7 00183 (a.go:6) MOVQ "".autotmp_0+64(SP), DX 0x00bc 00188 (a.go:6) JMP 153 0x00be 00190 (a.go:6) NOP 0x00be 00190 (a.go:5) CALL runtime.morestack_noctxt(SB) 0x00c3 00195 (a.go:5) JMP 0 Fixes #14969 again Change-Id: Ia50463b1f506011aad0718a4fef1d4738e43c32d Reviewed-on: https://go-review.googlesource.com/22197 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-18 09:40:30 -07:00
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
// Evaluate args
cmd/compile: SSA, don't let write barrier clobber return values When we do *p = f(), we might need to copy the return value from f to p with a write barrier. The write barrier itself is a call, so we need to copy the return value of f to a temporary location before we call the write barrier function. Otherwise, the call itself (specifically, marshalling the args to typedmemmove) will clobber the value we're trying to write. Fixes #15854 Change-Id: I5703da87634d91a9884e3ec098d7b3af713462e7 Reviewed-on: https://go-review.googlesource.com/23522 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-27 14:07:37 -07:00
type argRec struct {
// if store is true, we're appending the value v. If false, we're appending the
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
// value at *v.
v *ssa.Value
store bool
cmd/compile: SSA, don't let write barrier clobber return values When we do *p = f(), we might need to copy the return value from f to p with a write barrier. The write barrier itself is a call, so we need to copy the return value of f to a temporary location before we call the write barrier function. Otherwise, the call itself (specifically, marshalling the args to typedmemmove) will clobber the value we're trying to write. Fixes #15854 Change-Id: I5703da87634d91a9884e3ec098d7b3af713462e7 Reviewed-on: https://go-review.googlesource.com/23522 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-27 14:07:37 -07:00
}
args := make([]argRec, 0, nargs)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, n := range n.List().Slice()[1:] {
if canSSAType(n.Type()) {
cmd/compile: SSA, don't let write barrier clobber return values When we do *p = f(), we might need to copy the return value from f to p with a write barrier. The write barrier itself is a call, so we need to copy the return value of f to a temporary location before we call the write barrier function. Otherwise, the call itself (specifically, marshalling the args to typedmemmove) will clobber the value we're trying to write. Fixes #15854 Change-Id: I5703da87634d91a9884e3ec098d7b3af713462e7 Reviewed-on: https://go-review.googlesource.com/23522 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-27 14:07:37 -07:00
args = append(args, argRec{v: s.expr(n), store: true})
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
} else {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
v := s.addr(n)
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
args = append(args, argRec{v: v})
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
}
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
p = s.variable(ptrVar, pt) // generates phi for ptr
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
if !inplace {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
nl = s.variable(newlenVar, types.Types[types.TINT]) // generates phi for nl
c = s.variable(capVar, types.Types[types.TINT]) // generates phi for cap
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
p2 := s.newValue2(ssa.OpPtrIndex, pt, p, l)
for i, arg := range args {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
addr := s.newValue2(ssa.OpPtrIndex, pt, p2, s.constInt(types.Types[types.TINT], int64(i)))
cmd/compile: SSA, don't let write barrier clobber return values When we do *p = f(), we might need to copy the return value from f to p with a write barrier. The write barrier itself is a call, so we need to copy the return value of f to a temporary location before we call the write barrier function. Otherwise, the call itself (specifically, marshalling the args to typedmemmove) will clobber the value we're trying to write. Fixes #15854 Change-Id: I5703da87634d91a9884e3ec098d7b3af713462e7 Reviewed-on: https://go-review.googlesource.com/23522 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-27 14:07:37 -07:00
if arg.store {
cmd/compile: adjust is-statement on Pos's to improve debugging Stores to auto tmp variables can be hoisted to places where the line numbers make debugging look "jumpy". Turning those instructions into ones with is_stmt = 0 in the DWARF (accomplished by marking ssa nodes with NotStmt) makes debugging look better while still attributing the instructions with the correct line number. The same is true for certain register allocator spills and reloads. Change-Id: I97a394eb522d4911cc40b4bf5bf76d3d7221f6c0 Reviewed-on: https://go-review.googlesource.com/98415 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-02 20:33:15 -05:00
s.storeType(et, addr, arg.v, 0, true)
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
} else {
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.move(et, addr, arg.v)
[dev.ssa] cmd/compile/internal/gc: implement OAPPEND Change-Id: I1fbce8c421c48074a964b4d9481c92fbc3524f80 Reviewed-on: https://go-review.googlesource.com/14525 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-11 11:02:57 -07:00
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
cmd/compile: pull ssa OAPPEND expression handing into its own function Pure code movement. Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01 Reviewed-on: https://go-review.googlesource.com/21546 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-04-04 10:58:21 -07:00
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
delete(s.vars, ptrVar)
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
if inplace {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
delete(s.vars, lenVar)
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
return nil
}
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
delete(s.vars, newlenVar)
delete(s.vars, capVar)
cmd/compile: avoid write barrier in append fast path When we are writing the result of an append back to the same slice, we don’t need a write barrier on the fast path. This re-implements an optimization that was present in the old backend. Updates #14921 Fixes #14969 Sample code: var x []byte func p() { x = append(x, 1, 2, 3) } Before: "".p t=1 size=224 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 199 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x(SB), DX 0x0025 00037 (append.go:19) MOVQ "".x+8(SB), BX 0x002c 00044 (append.go:19) MOVQ BX, "".autotmp_0+64(SP) 0x0031 00049 (append.go:22) LEAQ 3(BX), BP 0x0035 00053 (append.go:22) CMPQ BP, CX 0x0038 00056 (append.go:22) JGT $0, 131 0x003a 00058 (append.go:22) MOVB $1, (DX)(BX*1) 0x003e 00062 (append.go:22) MOVB $2, 1(DX)(BX*1) 0x0043 00067 (append.go:22) MOVB $3, 2(DX)(BX*1) 0x0048 00072 (append.go:22) MOVQ BP, "".x+8(SB) 0x004f 00079 (append.go:22) MOVQ CX, "".x+16(SB) 0x0056 00086 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x005c 00092 (append.go:22) TESTB AL, AL 0x005e 00094 (append.go:22) JNE $0, 108 0x0060 00096 (append.go:22) MOVQ DX, "".x(SB) 0x0067 00103 (append.go:23) ADDQ $72, SP 0x006b 00107 (append.go:23) RET 0x006c 00108 (append.go:22) LEAQ "".x(SB), CX 0x0073 00115 (append.go:22) MOVQ CX, (SP) 0x0077 00119 (append.go:22) MOVQ DX, 8(SP) 0x007c 00124 (append.go:22) PCDATA $0, $0 0x007c 00124 (append.go:22) CALL runtime.writebarrierptr(SB) 0x0081 00129 (append.go:23) JMP 103 0x0083 00131 (append.go:22) LEAQ type.[]uint8(SB), AX 0x008a 00138 (append.go:22) MOVQ AX, (SP) 0x008e 00142 (append.go:22) MOVQ DX, 8(SP) 0x0093 00147 (append.go:22) MOVQ BX, 16(SP) 0x0098 00152 (append.go:22) MOVQ CX, 24(SP) 0x009d 00157 (append.go:22) MOVQ BP, 32(SP) 0x00a2 00162 (append.go:22) PCDATA $0, $0 0x00a2 00162 (append.go:22) CALL runtime.growslice(SB) 0x00a7 00167 (append.go:22) MOVQ 40(SP), DX 0x00ac 00172 (append.go:22) MOVQ 48(SP), AX 0x00b1 00177 (append.go:22) MOVQ 56(SP), CX 0x00b6 00182 (append.go:22) ADDQ $3, AX 0x00ba 00186 (append.go:19) MOVQ "".autotmp_0+64(SP), BX 0x00bf 00191 (append.go:22) MOVQ AX, BP 0x00c2 00194 (append.go:22) JMP 58 0x00c7 00199 (append.go:22) NOP 0x00c7 00199 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00cc 00204 (append.go:21) JMP 0 After: "".p t=1 size=208 args=0x0 locals=0x48 0x0000 00000 (append.go:21) TEXT "".p(SB), $72-0 0x0000 00000 (append.go:21) MOVQ (TLS), CX 0x0009 00009 (append.go:21) CMPQ SP, 16(CX) 0x000d 00013 (append.go:21) JLS 191 0x0013 00019 (append.go:21) SUBQ $72, SP 0x0017 00023 (append.go:21) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:21) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0017 00023 (append.go:19) MOVQ "".x+16(SB), CX 0x001e 00030 (append.go:19) MOVQ "".x+8(SB), DX 0x0025 00037 (append.go:19) MOVQ DX, "".autotmp_0+64(SP) 0x002a 00042 (append.go:19) MOVQ "".x(SB), BX 0x0031 00049 (append.go:22) LEAQ 3(DX), BP 0x0035 00053 (append.go:22) MOVQ BP, "".x+8(SB) 0x003c 00060 (append.go:22) CMPQ BP, CX 0x003f 00063 (append.go:22) JGT $0, 84 0x0041 00065 (append.go:22) MOVB $1, (BX)(DX*1) 0x0045 00069 (append.go:22) MOVB $2, 1(BX)(DX*1) 0x004a 00074 (append.go:22) MOVB $3, 2(BX)(DX*1) 0x004f 00079 (append.go:23) ADDQ $72, SP 0x0053 00083 (append.go:23) RET 0x0054 00084 (append.go:22) LEAQ type.[]uint8(SB), AX 0x005b 00091 (append.go:22) MOVQ AX, (SP) 0x005f 00095 (append.go:22) MOVQ BX, 8(SP) 0x0064 00100 (append.go:22) MOVQ DX, 16(SP) 0x0069 00105 (append.go:22) MOVQ CX, 24(SP) 0x006e 00110 (append.go:22) MOVQ BP, 32(SP) 0x0073 00115 (append.go:22) PCDATA $0, $0 0x0073 00115 (append.go:22) CALL runtime.growslice(SB) 0x0078 00120 (append.go:22) MOVQ 40(SP), CX 0x007d 00125 (append.go:22) MOVQ 56(SP), AX 0x0082 00130 (append.go:22) MOVQ AX, "".x+16(SB) 0x0089 00137 (append.go:22) MOVL runtime.writeBarrier(SB), AX 0x008f 00143 (append.go:22) TESTB AL, AL 0x0091 00145 (append.go:22) JNE $0, 168 0x0093 00147 (append.go:22) MOVQ CX, "".x(SB) 0x009a 00154 (append.go:22) MOVQ "".x(SB), BX 0x00a1 00161 (append.go:19) MOVQ "".autotmp_0+64(SP), DX 0x00a6 00166 (append.go:22) JMP 65 0x00a8 00168 (append.go:22) LEAQ "".x(SB), DX 0x00af 00175 (append.go:22) MOVQ DX, (SP) 0x00b3 00179 (append.go:22) MOVQ CX, 8(SP) 0x00b8 00184 (append.go:22) PCDATA $0, $0 0x00b8 00184 (append.go:22) CALL runtime.writebarrierptr(SB) 0x00bd 00189 (append.go:22) JMP 154 0x00bf 00191 (append.go:22) NOP 0x00bf 00191 (append.go:21) CALL runtime.morestack_noctxt(SB) 0x00c4 00196 (append.go:21) JMP 0 Change-Id: I77a41ad3a22557a4bb4654de7d6d24a029efe34a Reviewed-on: https://go-review.googlesource.com/21813 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-04-10 09:44:17 -07:00
// make result
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue3(ssa.OpSliceMake, n.Type(), p, nl, c)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
// condBranch evaluates the boolean expression cond and branches to yes
// if cond is true and no if cond is false.
// This function is intended to handle && and || better than just calling
// s.expr(cond) and branching on the result.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) condBranch(cond ir.Node, yes, no *ssa.Block, likely int8) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch cond.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OANDAND:
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
mid := s.f.NewBlock(ssa.BlockPlain)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(cond.Init())
s.condBranch(cond.Left(), mid, no, max8(likely, 0))
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
s.startBlock(mid)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.condBranch(cond.Right(), yes, no, likely)
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
return
// Note: if likely==1, then both recursive calls pass 1.
// If likely==-1, then we don't have enough information to decide
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// whether the first branch is likely or not. So we pass 0 for
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
// the likeliness of the first branch.
// TODO: have the frontend give us branch prediction hints for
// OANDAND and OOROR nodes (if it ever has such info).
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OOROR:
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
mid := s.f.NewBlock(ssa.BlockPlain)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(cond.Init())
s.condBranch(cond.Left(), yes, mid, min8(likely, 0))
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
s.startBlock(mid)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.condBranch(cond.Right(), yes, no, likely)
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
return
// Note: if likely==-1, then both recursive calls pass -1.
// If likely==1, then we don't have enough info to decide
// the likelihood of the first branch.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONOT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(cond.Init())
s.condBranch(cond.Left(), no, yes, -likely)
[dev.ssa] cmd/compile: Handle ONOT in conditionals as well Might as well, for a && !(b && c) and the like. Change-Id: I2548b6e6ee5870e074bcef6edd56a7db6e81d70f Reviewed-on: https://go-review.googlesource.com/16600 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com>
2015-11-03 09:30:17 -08:00
return
}
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
c := s.expr(cond)
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(c)
[dev.ssa] cmd/compile: better ANDAND and OROR in IF and FOR For the statement if a && b { target } the old code allocated a new variable v and did: v = a if a { v = b } if v { goto target } The new code does: if a { if b { goto target } } The new arrangement tends to generate much more efficient code. In particular, there is no temporary variable and there is only one join point instead of two. The old code is still used for ANDAND and OROR which are not direct descendents of IF or FOR statements. Change-Id: I082f246d27c823c6f32d1287300e4b0911607507 Reviewed-on: https://go-review.googlesource.com/16584 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 16:56:53 -08:00
b.Likely = ssa.BranchPrediction(likely) // gc and ssa both use -1/0/+1 for likeliness
b.AddEdgeTo(yes)
b.AddEdgeTo(no)
}
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
type skipMask uint8
const (
skipPtr skipMask = 1 << iota
skipLen
skipCap
)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
// assign does left = right.
// Right has already been evaluated to ssa, left has not.
// If deref is true, then we do left = *right instead (and right has already been nil-checked).
// If deref is true and right == nil, just do left = 0.
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
// skip indicates assignments (at the top level) that can be avoided.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) assign(left ir.Node, right *ssa.Value, deref bool, skip skipMask) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if left.Op() == ir.ONAME && ir.IsBlank(left) {
[dev.ssa] cmd/compile/internal/ssa: Use explicit size for store ops Using the type of the store argument is not safe, it may change during rewriting, giving us the wrong store width. (Store ptr (Trunc32to16 val) mem) This should be a 2-byte store. But we have the rule: (Trunc32to16 x) -> x So if the Trunc rewrite happens before the Store -> MOVW rewrite, then the Store thinks that the value it is storing is 4 bytes in size and uses a MOVL. Bad things ensue. Fix this by encoding the store width explicitly in the auxint field. In general, we can't rely on the type of arguments, as they may change during rewrites. The type of the op itself (as used by the Load rules) is still ok to use. Change-Id: I9e2359e4f657bb0ea0e40038969628bf0f84e584 Reviewed-on: https://go-review.googlesource.com/13636 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-14 21:47:20 -07:00
return
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := left.Type()
cmd/compile: add sizeCalculationDisabled flag Use it to ensure that dowidth is not called from the backend on a type whose size has not yet been calculated. This is an alternative to CL 42016. Change-Id: I8c7b4410ee4c2a68573102f6b9b635f4fdcf392e Reviewed-on: https://go-review.googlesource.com/42018 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 16:37:25 -07:00
dowidth(t)
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
if s.canSSA(left) {
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
if deref {
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("can SSA LHS %v but not RHS %s", left, right)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if left.Op() == ir.ODOT {
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// We're assigning to a field of an ssa-able value.
// We need to build a new structure with the new value for the
// field we're assigning and the old values for the other fields.
// For instance:
// type T struct {a, b, c int}
// var T x
// x.b = 5
// For the x.b = 5 assignment we want to generate x = T{x.a, 5, x.c}
// Grab information about the structure type.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := left.Left().Type()
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
nf := t.NumFields()
idx := fieldIdx(left)
// Grab old value of structure.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
old := s.expr(left.Left())
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// Make new structure.
new := s.newValue0(ssa.StructMakeOp(t.NumFields()), t)
// Add fields as args.
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
for i := 0; i < nf; i++ {
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
if i == idx {
new.AddArg(right)
} else {
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
new.AddArg(s.newValue1I(ssa.OpStructSelect, t.FieldType(i), int64(i), old))
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
}
}
// Recursively assign the new value we've made to the base of the dot op.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.assign(left.Left(), new, false, 0)
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// TODO: do we need to update named values here?
return
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if left.Op() == ir.OINDEX && left.Left().Type().IsArray() {
s.pushLine(left.Pos())
cmd/compile: fix line numbers for index panics In the statement x = a[i], the index panic should appear to come from the line number of the '['. Previous to this CL we sometimes used the line number of the '=' instead. Fixes #29504 Change-Id: Ie718fd303c1ac2aee33e88d52c9ba9bcf220dea1 Reviewed-on: https://go-review.googlesource.com/c/go/+/174617 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-04-30 14:03:07 -07:00
defer s.popLine()
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
// We're assigning to an element of an ssa-able array.
// a[i] = v
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := left.Left().Type()
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
n := t.NumElem()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
i := s.expr(left.Right()) // index
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
if n == 0 {
// The bounds check must fail. Might as well
// ignore the actual index and just use zeros.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
z := s.constInt(types.Types[types.TINT], 0)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.boundsCheck(z, z, ssa.BoundsIndex, false)
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
return
}
if n != 1 {
s.Fatalf("assigning to non-1-length array")
}
// Rewrite to a = [1]{v}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.constInt(types.Types[types.TINT], 1)
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
s.boundsCheck(i, len, ssa.BoundsIndex, false) // checks i == 0
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
v := s.newValue1(ssa.OpArrayMake1, t, right)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.assign(left.Left(), v, false, 0)
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
return
}
[dev.ssa] initial implementation of PAUTO|PHEAP variables Call to the runtime to generate escaping variables and use the returned address when accessing these variables. Fix a couple of errors on the way. The rule for CALLstatic was missed during the Aux refactor and OCONVNOP wasn't converted. Change-Id: I2096beff92cca92d648bfb6e8ec0b120f02f44af Reviewed-on: https://go-review.googlesource.com/11072 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 14:23:29 +01:00
// Update variable assignment.
[dev.ssa] cmd/compile: refactor assign Move the AST to SSA conversion to the caller. This enables it to be used in contexts in which the RHS is already an *ssa.Value. Change-Id: Ibb87210fb9fda095a9b7c7f4ad1264a7cbd269bf Reviewed-on: https://go-review.googlesource.com/14521 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org>
2015-08-29 14:54:45 -07:00
s.vars[left] = right
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
s.addNamedValue(left, right)
[dev.ssa] initial implementation of PAUTO|PHEAP variables Call to the runtime to generate escaping variables and use the returned address when accessing these variables. Fix a couple of errors on the way. The rule for CALLstatic was missed during the Aux refactor and OCONVNOP wasn't converted. Change-Id: I2096beff92cca92d648bfb6e8ec0b120f02f44af Reviewed-on: https://go-review.googlesource.com/11072 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 14:23:29 +01:00
return
}
cmd/compile: extend ssa.go to handle 1-element array and 1-field struct Assinging to 1-element array/1-field struct variable is considered clobbering the whole variable. By emitting OpVarDef in this case, liveness analysis can now know the variable is redefined. Also, the isfat is not necessary anymore, and will be removed in follow up CL. Fixes #33916 Change-Id: Iece0d90b05273f333d59d6ee5b12ee7dc71908c2 Reviewed-on: https://go-review.googlesource.com/c/go/+/192979 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-09-03 23:24:35 +07:00
// If this assignment clobbers an entire local variable, then emit
// OpVarDef so liveness analysis knows the variable is redefined.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if base := clobberBase(left); base.Op() == ir.ONAME && base.Class() != ir.PEXTERN && skip == 0 {
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarDef, types.TypeMem, base, s.mem(), !ir.IsAutoTmp(base))
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
}
cmd/compile: extend ssa.go to handle 1-element array and 1-field struct Assinging to 1-element array/1-field struct variable is considered clobbering the whole variable. By emitting OpVarDef in this case, liveness analysis can now know the variable is redefined. Also, the isfat is not necessary anymore, and will be removed in follow up CL. Fixes #33916 Change-Id: Iece0d90b05273f333d59d6ee5b12ee7dc71908c2 Reviewed-on: https://go-review.googlesource.com/c/go/+/192979 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-09-03 23:24:35 +07:00
// Left is not ssa-able. Compute its address.
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr := s.addr(left)
cmd/compile: move write barrier insertion to SSA When the compiler insert write barriers, the frontend makes conservative decisions at an early stage. This sometimes have false positives because of the lack of information, for example, writes on stack. SSA's writebarrier pass identifies writes on stack and eliminates write barriers for them. This CL moves write barrier insertion into SSA. The frontend no longer makes decisions about write barriers, and simply does normal assignments and emits normal Store ops when building SSA. SSA writebarrier pass inserts write barrier for Stores when needed. There, it has better information about the store because Phi and Copy propagation are done at that time. This CL only changes StoreWB to Store in gc/ssa.go. A followup CL simplifies SSA building code. Updates #17583. Change-Id: I4592d9bc0067503befc169c50b4e6f4765673bec Reviewed-on: https://go-review.googlesource.com/36839 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-05 23:43:31 -05:00
if isReflectHeaderDataField(left) {
// Package unsafe's documentation says storing pointers into
// reflect.SliceHeader and reflect.StringHeader's Data fields
// is valid, even though they have type uintptr (#19168).
// Mark it pointer type to signal the writebarrier pass to
// insert a write barrier.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
t = types.Types[types.TUNSAFEPTR]
cmd/compile: move write barrier insertion to SSA When the compiler insert write barriers, the frontend makes conservative decisions at an early stage. This sometimes have false positives because of the lack of information, for example, writes on stack. SSA's writebarrier pass identifies writes on stack and eliminates write barriers for them. This CL moves write barrier insertion into SSA. The frontend no longer makes decisions about write barriers, and simply does normal assignments and emits normal Store ops when building SSA. SSA writebarrier pass inserts write barrier for Stores when needed. There, it has better information about the store because Phi and Copy propagation are done at that time. This CL only changes StoreWB to Store in gc/ssa.go. A followup CL simplifies SSA building code. Updates #17583. Change-Id: I4592d9bc0067503befc169c50b4e6f4765673bec Reviewed-on: https://go-review.googlesource.com/36839 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-05 23:43:31 -05:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
if deref {
// Treat as a mem->mem move.
cmd/compile: use typedmemclr for zeroing if there are pointers Currently, zeroing generates an ssa.OpZero, which never has write barriers, even if the assignment is an OASWB. The hybrid barrier requires write barriers on zeroing, so change OASWB to generate an ssa.OpZeroWB when assigning the zero value, which turns into a typedmemclr. Updates #17503. Change-Id: Ib37ac5e39f578447dbd6b36a6a54117d5624784d Reviewed-on: https://go-review.googlesource.com/31451 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 11:06:28 -04:00
if right == nil {
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.zero(t, addr)
cmd/compile: clean up SSA-building code Now that the write barrier insertion is moved to SSA, the SSA building code can be simplified. Updates #17583. Change-Id: I5cacc034b11aa90b0abe6f8dd97e4e3994e2bc25 Reviewed-on: https://go-review.googlesource.com/36840 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-10 10:15:10 -05:00
} else {
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.move(t, addr, right)
cmd/compile: use typedmemclr for zeroing if there are pointers Currently, zeroing generates an ssa.OpZero, which never has write barriers, even if the assignment is an OASWB. The hybrid barrier requires write barriers on zeroing, so change OASWB to generate an ssa.OpZeroWB when assigning the zero value, which turns into a typedmemclr. Updates #17503. Change-Id: Ib37ac5e39f578447dbd6b36a6a54117d5624784d Reviewed-on: https://go-review.googlesource.com/31451 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 11:06:28 -04:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
return
}
// Treat as a store.
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
s.storeType(t, addr, right, skip, !ir.IsAutoTmp(left))
[dev.ssa] initial implementation of PAUTO|PHEAP variables Call to the runtime to generate escaping variables and use the returned address when accessing these variables. Fix a couple of errors on the way. The rule for CALLstatic was missed during the Aux refactor and OCONVNOP wasn't converted. Change-Id: I2096beff92cca92d648bfb6e8ec0b120f02f44af Reviewed-on: https://go-review.googlesource.com/11072 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 14:23:29 +01:00
}
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
// zeroVal returns the zero value for type t.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) zeroVal(t *types.Type) *ssa.Value {
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
switch {
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case t.IsInteger():
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch t.Size() {
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
case 1:
return s.constInt8(t, 0)
case 2:
return s.constInt16(t, 0)
case 4:
return s.constInt32(t, 0)
case 8:
return s.constInt64(t, 0)
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad sized integer type %v", t)
[dev.ssa] cmd/compile/internal/ssa: Split OpConst into an OpConst8, OpConst16, ... Convert the polymorphic OpConst into monomorphic variants. Change-Id: I90bb8894fbac04ca5e5484ea260c131ef8b506fb Reviewed-on: https://go-review.googlesource.com/12798 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-28 14:19:20 -07:00
}
[dev.ssa] cmd/compile: support float zeroing Change-Id: Iacd302350cf0a8a8164d937e5c4ac55e6a07d380 Reviewed-on: https://go-review.googlesource.com/13942 Reviewed-by: David Chase <drchase@google.com>
2015-08-25 19:21:45 -05:00
case t.IsFloat():
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch t.Size() {
[dev.ssa] cmd/compile: support float zeroing Change-Id: Iacd302350cf0a8a8164d937e5c4ac55e6a07d380 Reviewed-on: https://go-review.googlesource.com/13942 Reviewed-by: David Chase <drchase@google.com>
2015-08-25 19:21:45 -05:00
case 4:
return s.constFloat32(t, 0)
case 8:
return s.constFloat64(t, 0)
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad sized float type %v", t)
[dev.ssa] cmd/compile: support float zeroing Change-Id: Iacd302350cf0a8a8164d937e5c4ac55e6a07d380 Reviewed-on: https://go-review.googlesource.com/13942 Reviewed-by: David Chase <drchase@google.com>
2015-08-25 19:21:45 -05:00
}
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
case t.IsComplex():
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
switch t.Size() {
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
case 8:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
z := s.constFloat32(types.Types[types.TFLOAT32], 0)
[dev.ssa] cmd/compile/internal/ssa: allocate complex zero in the entry block Fixes build. There may be no current block. Change-Id: I0da8bab133dc207124556927698e7cd682e64ef5 Reviewed-on: https://go-review.googlesource.com/13989 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 13:52:26 -07:00
return s.entryNewValue2(ssa.OpComplexMake, t, z, z)
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
case 16:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
z := s.constFloat64(types.Types[types.TFLOAT64], 0)
[dev.ssa] cmd/compile/internal/ssa: allocate complex zero in the entry block Fixes build. There may be no current block. Change-Id: I0da8bab133dc207124556927698e7cd682e64ef5 Reviewed-on: https://go-review.googlesource.com/13989 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 13:52:26 -07:00
return s.entryNewValue2(ssa.OpComplexMake, t, z, z)
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad sized complex type %v", t)
[dev.ssa] cmd/compile: add compose/decompose for complex, phi, constants Still to do: arithmetic Change-Id: I31fd23b34980c9ed4b4e304b8597134b2ba6ca5c Reviewed-on: https://go-review.googlesource.com/14024 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 14:24:10 -04:00
}
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
case t.IsString():
cmd/compile: cache const nil, iface, slice, and "" name old time/op new time/op delta Template 441ms ± 4% 446ms ± 4% +1.23% (p=0.048 n=22+25) GoTypes 1.51s ± 2% 1.51s ± 2% ~ (p=0.224 n=25+25) Compiler 5.59s ± 1% 5.57s ± 2% -0.38% (p=0.019 n=24+24) name old alloc/op new alloc/op delta Template 85.6MB ± 0% 85.6MB ± 0% -0.11% (p=0.000 n=25+24) GoTypes 307MB ± 0% 305MB ± 0% -0.45% (p=0.000 n=25+25) Compiler 1.06GB ± 0% 1.06GB ± 0% -0.34% (p=0.000 n=25+25) name old allocs/op new allocs/op delta Template 1.10M ± 0% 1.10M ± 0% -0.03% (p=0.001 n=25+24) GoTypes 3.36M ± 0% 3.35M ± 0% -0.13% (p=0.000 n=25+25) Compiler 13.0M ± 0% 13.0M ± 0% -0.12% (p=0.000 n=25+24) Change-Id: I7fc18acbc3b1588aececef9692e24a0bd3dba974 Reviewed-on: https://go-review.googlesource.com/20295 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-06 18:06:09 -08:00
return s.constEmptyString(t)
cmd/compile: rename Type.IsPtr to Type.IsPtrShaped Previously, t.IsPtr() reported whether t was represented with a pointer, but some of its callers expected it to report whether t is an actual Go pointer. Resolve this by renaming t.IsPtr to t.IsPtrShaped and adding a new t.IsPtr method to report Go pointer types. Updated a couple callers in gc/ssa.go to use IsPtr instead of IsPtrShaped. Passes toolstash -cmp. Updates #15028. Change-Id: I0a8154b5822ad8a6ad296419126ad01a3d2a5dc5 Reviewed-on: https://go-review.googlesource.com/21232 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-03-28 10:55:44 -07:00
case t.IsPtrShaped():
cmd/compile: cache const nil, iface, slice, and "" name old time/op new time/op delta Template 441ms ± 4% 446ms ± 4% +1.23% (p=0.048 n=22+25) GoTypes 1.51s ± 2% 1.51s ± 2% ~ (p=0.224 n=25+25) Compiler 5.59s ± 1% 5.57s ± 2% -0.38% (p=0.019 n=24+24) name old alloc/op new alloc/op delta Template 85.6MB ± 0% 85.6MB ± 0% -0.11% (p=0.000 n=25+24) GoTypes 307MB ± 0% 305MB ± 0% -0.45% (p=0.000 n=25+25) Compiler 1.06GB ± 0% 1.06GB ± 0% -0.34% (p=0.000 n=25+25) name old allocs/op new allocs/op delta Template 1.10M ± 0% 1.10M ± 0% -0.03% (p=0.001 n=25+24) GoTypes 3.36M ± 0% 3.35M ± 0% -0.13% (p=0.000 n=25+25) Compiler 13.0M ± 0% 13.0M ± 0% -0.12% (p=0.000 n=25+24) Change-Id: I7fc18acbc3b1588aececef9692e24a0bd3dba974 Reviewed-on: https://go-review.googlesource.com/20295 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-06 18:06:09 -08:00
return s.constNil(t)
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
case t.IsBoolean():
[dev.ssa] cmd/compile: add constBool helpers Change-Id: I1f93ea65bbdc895cd4eff7545e1688a64d85aae5 Reviewed-on: https://go-review.googlesource.com/14520 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-09-08 16:52:25 -07:00
return s.constBool(false)
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
case t.IsInterface():
cmd/compile: cache const nil, iface, slice, and "" name old time/op new time/op delta Template 441ms ± 4% 446ms ± 4% +1.23% (p=0.048 n=22+25) GoTypes 1.51s ± 2% 1.51s ± 2% ~ (p=0.224 n=25+25) Compiler 5.59s ± 1% 5.57s ± 2% -0.38% (p=0.019 n=24+24) name old alloc/op new alloc/op delta Template 85.6MB ± 0% 85.6MB ± 0% -0.11% (p=0.000 n=25+24) GoTypes 307MB ± 0% 305MB ± 0% -0.45% (p=0.000 n=25+25) Compiler 1.06GB ± 0% 1.06GB ± 0% -0.34% (p=0.000 n=25+25) name old allocs/op new allocs/op delta Template 1.10M ± 0% 1.10M ± 0% -0.03% (p=0.001 n=25+24) GoTypes 3.36M ± 0% 3.35M ± 0% -0.13% (p=0.000 n=25+25) Compiler 13.0M ± 0% 13.0M ± 0% -0.12% (p=0.000 n=25+24) Change-Id: I7fc18acbc3b1588aececef9692e24a0bd3dba974 Reviewed-on: https://go-review.googlesource.com/20295 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-06 18:06:09 -08:00
return s.constInterface(t)
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
case t.IsSlice():
cmd/compile: cache const nil, iface, slice, and "" name old time/op new time/op delta Template 441ms ± 4% 446ms ± 4% +1.23% (p=0.048 n=22+25) GoTypes 1.51s ± 2% 1.51s ± 2% ~ (p=0.224 n=25+25) Compiler 5.59s ± 1% 5.57s ± 2% -0.38% (p=0.019 n=24+24) name old alloc/op new alloc/op delta Template 85.6MB ± 0% 85.6MB ± 0% -0.11% (p=0.000 n=25+24) GoTypes 307MB ± 0% 305MB ± 0% -0.45% (p=0.000 n=25+25) Compiler 1.06GB ± 0% 1.06GB ± 0% -0.34% (p=0.000 n=25+25) name old allocs/op new allocs/op delta Template 1.10M ± 0% 1.10M ± 0% -0.03% (p=0.001 n=25+24) GoTypes 3.36M ± 0% 3.35M ± 0% -0.13% (p=0.000 n=25+25) Compiler 13.0M ± 0% 13.0M ± 0% -0.12% (p=0.000 n=25+24) Change-Id: I7fc18acbc3b1588aececef9692e24a0bd3dba974 Reviewed-on: https://go-review.googlesource.com/20295 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-03-06 18:06:09 -08:00
return s.constSlice(t)
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
case t.IsStruct():
n := t.NumFields()
v := s.entryNewValue0(ssa.StructMakeOp(t.NumFields()), t)
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
for i := 0; i < n; i++ {
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
v.AddArg(s.zeroVal(t.FieldType(i)))
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
}
return v
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
case t.IsArray():
switch t.NumElem() {
case 0:
return s.entryNewValue0(ssa.OpArrayMake0, t)
case 1:
return s.entryNewValue1(ssa.OpArrayMake1, t, s.zeroVal(t.Elem()))
}
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
}
cmd/compile: make ssa compilation unconditional Rip out the code that allows SSA to be used conditionally. No longer exists: ssa=0 flag GOSSAHASH GOSSAPKG SSATEST GOSSAFUNC now only controls the printing of the IR/html. Still need to rip out all of the old backend. It should no longer be callable after this CL. Update #16357 Change-Id: Ib30cc18fba6ca52232c41689ba610b0a94aa74f5 Reviewed-on: https://go-review.googlesource.com/29155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-14 10:01:05 -07:00
s.Fatalf("zero for type %v not implemented", t)
[dev.ssa] cmd/compile: refactor out zero value creation This will be used in a subsequent commit. Change-Id: I43eca21f4692d99e164c9f6be0760597c46e6a26 Reviewed-on: https://go-review.googlesource.com/12440 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-20 15:30:52 -07:00
return nil
}
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
type callKind int8
const (
callNormal callKind = iota
callDefer
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
callDeferStack
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
callGo
)
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
type sfRtCallDef struct {
rtfn *obj.LSym
rtype types.EType
}
var softFloatOps map[ssa.Op]sfRtCallDef
func softfloatInit() {
// Some of these operations get transformed by sfcall.
softFloatOps = map[ssa.Op]sfRtCallDef{
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ssa.OpAdd32F: sfRtCallDef{sysfunc("fadd32"), types.TFLOAT32},
ssa.OpAdd64F: sfRtCallDef{sysfunc("fadd64"), types.TFLOAT64},
ssa.OpSub32F: sfRtCallDef{sysfunc("fadd32"), types.TFLOAT32},
ssa.OpSub64F: sfRtCallDef{sysfunc("fadd64"), types.TFLOAT64},
ssa.OpMul32F: sfRtCallDef{sysfunc("fmul32"), types.TFLOAT32},
ssa.OpMul64F: sfRtCallDef{sysfunc("fmul64"), types.TFLOAT64},
ssa.OpDiv32F: sfRtCallDef{sysfunc("fdiv32"), types.TFLOAT32},
ssa.OpDiv64F: sfRtCallDef{sysfunc("fdiv64"), types.TFLOAT64},
ssa.OpEq64F: sfRtCallDef{sysfunc("feq64"), types.TBOOL},
ssa.OpEq32F: sfRtCallDef{sysfunc("feq32"), types.TBOOL},
ssa.OpNeq64F: sfRtCallDef{sysfunc("feq64"), types.TBOOL},
ssa.OpNeq32F: sfRtCallDef{sysfunc("feq32"), types.TBOOL},
ssa.OpLess64F: sfRtCallDef{sysfunc("fgt64"), types.TBOOL},
ssa.OpLess32F: sfRtCallDef{sysfunc("fgt32"), types.TBOOL},
ssa.OpLeq64F: sfRtCallDef{sysfunc("fge64"), types.TBOOL},
ssa.OpLeq32F: sfRtCallDef{sysfunc("fge32"), types.TBOOL},
ssa.OpCvt32to32F: sfRtCallDef{sysfunc("fint32to32"), types.TFLOAT32},
ssa.OpCvt32Fto32: sfRtCallDef{sysfunc("f32toint32"), types.TINT32},
ssa.OpCvt64to32F: sfRtCallDef{sysfunc("fint64to32"), types.TFLOAT32},
ssa.OpCvt32Fto64: sfRtCallDef{sysfunc("f32toint64"), types.TINT64},
ssa.OpCvt64Uto32F: sfRtCallDef{sysfunc("fuint64to32"), types.TFLOAT32},
ssa.OpCvt32Fto64U: sfRtCallDef{sysfunc("f32touint64"), types.TUINT64},
ssa.OpCvt32to64F: sfRtCallDef{sysfunc("fint32to64"), types.TFLOAT64},
ssa.OpCvt64Fto32: sfRtCallDef{sysfunc("f64toint32"), types.TINT32},
ssa.OpCvt64to64F: sfRtCallDef{sysfunc("fint64to64"), types.TFLOAT64},
ssa.OpCvt64Fto64: sfRtCallDef{sysfunc("f64toint64"), types.TINT64},
ssa.OpCvt64Uto64F: sfRtCallDef{sysfunc("fuint64to64"), types.TFLOAT64},
ssa.OpCvt64Fto64U: sfRtCallDef{sysfunc("f64touint64"), types.TUINT64},
ssa.OpCvt32Fto64F: sfRtCallDef{sysfunc("f32to64"), types.TFLOAT64},
ssa.OpCvt64Fto32F: sfRtCallDef{sysfunc("f64to32"), types.TFLOAT32},
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
}
}
// TODO: do not emit sfcall if operation can be optimized to constant in later
// opt phase
func (s *state) sfcall(op ssa.Op, args ...*ssa.Value) (*ssa.Value, bool) {
if callDef, ok := softFloatOps[op]; ok {
switch op {
case ssa.OpLess32F,
ssa.OpLess64F,
ssa.OpLeq32F,
ssa.OpLeq64F:
args[0], args[1] = args[1], args[0]
case ssa.OpSub32F,
ssa.OpSub64F:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
args[1] = s.newValue1(s.ssaOp(ir.ONEG, types.Types[callDef.rtype]), args[1].Type, args[1])
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
}
result := s.rtcall(callDef.rtfn, true, []*types.Type{types.Types[callDef.rtype]}, args...)[0]
if op == ssa.OpNeq32F || op == ssa.OpNeq64F {
result = s.newValue1(ssa.OpNot, result.Type, result)
}
return result, true
}
return nil, false
}
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
var intrinsics map[intrinsicKey]intrinsicBuilder
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
// An intrinsicBuilder converts a call node n into an ssa value that
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
// implements that call as an intrinsic. args is a list of arguments to the func.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
type intrinsicBuilder func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
type intrinsicKey struct {
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
arch *sys.Arch
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
pkg string
fn string
}
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
func init() {
intrinsics = map[intrinsicKey]intrinsicBuilder{}
var all []*sys.Arch
var p4 []*sys.Arch
var p8 []*sys.Arch
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
var lwatomics []*sys.Arch
cmd/compile: avoid range over copy of array Passes toostash-check. Slightly reduce compiler binary size: file before after Δ % compile 21087288 21070776 -16512 -0.078% total 131847020 131830508 -16512 -0.013% file before after Δ % cmd/compile/internal/gc.a 9007472 8999640 -7832 -0.087% total 127117794 127109962 -7832 -0.006% Change-Id: I4aadd68d0a7545770598bed9d3a4d05899b67b52 Reviewed-on: https://go-review.googlesource.com/c/go/+/205777 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-11-01 18:12:27 +07:00
for _, a := range &sys.Archs {
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
all = append(all, a)
if a.PtrSize == 4 {
p4 = append(p4, a)
} else {
p8 = append(p8, a)
}
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
if a.Family != sys.PPC64 {
lwatomics = append(lwatomics, a)
}
cmd/compile: intrinsify slicebytetostringtmp when not instrumenting when not instrumenting: - Intrinsify uses of slicebytetostringtmp within the runtime package in the ssa backend. - Pass OARRAYBYTESTRTMP nodes to the compiler backends for lowering instead of generating calls to slicebytetostringtmp. name old time/op new time/op delta ConcatStringAndBytes-4 27.9ns ± 2% 24.7ns ± 2% -11.52% (p=0.000 n=43+43) Fixes #17044 Change-Id: I51ce9c3b93284ce526edd0234f094e98580faf2d Reviewed-on: https://go-review.googlesource.com/29017 Run-TryBot: Martin Möhrmann <martisch@uos.de> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-10 22:44:00 +02:00
}
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
// add adds the intrinsic b for pkg.fn for the given list of architectures.
add := func(pkg, fn string, b intrinsicBuilder, archs ...*sys.Arch) {
for _, a := range archs {
intrinsics[intrinsicKey{a, pkg, fn}] = b
}
}
// addF does the same as add but operates on architecture families.
addF := func(pkg, fn string, b intrinsicBuilder, archFamilies ...sys.ArchFamily) {
m := 0
for _, f := range archFamilies {
if f >= 32 {
panic("too many architecture families")
}
m |= 1 << uint(f)
}
for _, a := range all {
if m>>uint(a.Family)&1 != 0 {
intrinsics[intrinsicKey{a, pkg, fn}] = b
}
}
}
// alias defines pkg.fn = pkg2.fn2 for all architectures in archs for which pkg2.fn2 exists.
alias := func(pkg, fn, pkg2, fn2 string, archs ...*sys.Arch) {
cmd/compile: panic if trying to alias an intrinsic with no definitions Currently if we try to alias an intrinsic which hasn't been defined for any architecture (such as by accidentally creating the alias before the intrinsic is created with addF), then we'll just silently not apply any intrinsics to those aliases. Catch this particular case by panicking in alias if we try to apply the alias and it did nothing. Change-Id: I98e75fc3f7206b08fc9267cedb8db3e109ec4f5d Reviewed-on: https://go-review.googlesource.com/c/go/+/224637 Run-TryBot: Michael Knyszek <mknyszek@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-20 19:08:13 +00:00
aliased := false
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
for _, a := range archs {
if b, ok := intrinsics[intrinsicKey{a, pkg2, fn2}]; ok {
intrinsics[intrinsicKey{a, pkg, fn}] = b
cmd/compile: panic if trying to alias an intrinsic with no definitions Currently if we try to alias an intrinsic which hasn't been defined for any architecture (such as by accidentally creating the alias before the intrinsic is created with addF), then we'll just silently not apply any intrinsics to those aliases. Catch this particular case by panicking in alias if we try to apply the alias and it did nothing. Change-Id: I98e75fc3f7206b08fc9267cedb8db3e109ec4f5d Reviewed-on: https://go-review.googlesource.com/c/go/+/224637 Run-TryBot: Michael Knyszek <mknyszek@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-20 19:08:13 +00:00
aliased = true
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
}
}
cmd/compile: panic if trying to alias an intrinsic with no definitions Currently if we try to alias an intrinsic which hasn't been defined for any architecture (such as by accidentally creating the alias before the intrinsic is created with addF), then we'll just silently not apply any intrinsics to those aliases. Catch this particular case by panicking in alias if we try to apply the alias and it did nothing. Change-Id: I98e75fc3f7206b08fc9267cedb8db3e109ec4f5d Reviewed-on: https://go-review.googlesource.com/c/go/+/224637 Run-TryBot: Michael Knyszek <mknyszek@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-20 19:08:13 +00:00
if !aliased {
panic(fmt.Sprintf("attempted to alias undefined intrinsic: %s.%s", pkg, fn))
}
cmd/compile: intrinsify Ctz, Bswap, and some atomics on ARM64 Change-Id: Ia5bf72b70e6f6522d6fb8cd050e78f862d37b5ae Reviewed-on: https://go-review.googlesource.com/27936 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-08-29 16:26:57 -04:00
}
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
/******** runtime ********/
if !instrumenting {
add("runtime", "slicebytetostringtmp",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: bulk rename This change does a bulk rename of several identifiers in the compiler. See #27167 and https://docs.google.com/document/d/19_ExiylD9MRfeAjKIfEsMU1_RGhuxB9sA0b5Zv7byVI/ for context and for discussion of these particular renames. Commands run to generate this change: gorename -from '"cmd/compile/internal/gc".OPROC' -to OGO gorename -from '"cmd/compile/internal/gc".OCOM' -to OBITNOT gorename -from '"cmd/compile/internal/gc".OMINUS' -to ONEG gorename -from '"cmd/compile/internal/gc".OIND' -to ODEREF gorename -from '"cmd/compile/internal/gc".OARRAYBYTESTR' -to OBYTES2STR gorename -from '"cmd/compile/internal/gc".OARRAYBYTESTRTMP' -to OBYTES2STRTMP gorename -from '"cmd/compile/internal/gc".OARRAYRUNESTR' -to ORUNES2STR gorename -from '"cmd/compile/internal/gc".OSTRARRAYBYTE' -to OSTR2BYTES gorename -from '"cmd/compile/internal/gc".OSTRARRAYBYTETMP' -to OSTR2BYTESTMP gorename -from '"cmd/compile/internal/gc".OSTRARRAYRUNE' -to OSTR2RUNES gorename -from '"cmd/compile/internal/gc".Etop' -to ctxStmt gorename -from '"cmd/compile/internal/gc".Erv' -to ctxExpr gorename -from '"cmd/compile/internal/gc".Ecall' -to ctxCallee gorename -from '"cmd/compile/internal/gc".Efnstruct' -to ctxMultiOK gorename -from '"cmd/compile/internal/gc".Easgn' -to ctxAssign gorename -from '"cmd/compile/internal/gc".Ecomplit' -to ctxCompLit Not altered: parameters and local variables (mostly in typecheck.go) named top, which should probably now be called ctx (and which should probably have a named type). Also not altered: Field called Top in gc.Func. gorename -from '"cmd/compile/internal/gc".Node.Isddd' -to IsDDD gorename -from '"cmd/compile/internal/gc".Node.SetIsddd' -to SetIsDDD gorename -from '"cmd/compile/internal/gc".nodeIsddd' -to nodeIsDDD gorename -from '"cmd/compile/internal/types".Field.Isddd' -to IsDDD gorename -from '"cmd/compile/internal/types".Field.SetIsddd' -to SetIsDDD gorename -from '"cmd/compile/internal/types".fieldIsddd' -to fieldIsDDD Not altered: function gc.hasddd, params and local variables called isddd Also not altered: fmt.go prints nodes using "isddd(%v)". cd cmd/compile/internal/gc; go generate I then manually found impacted comments using exact string match and fixed them up by hand. The comment changes were trivial. Passes toolstash-check. Fixes #27167. If this experiment is deemed a success, we will open a new tracking issue for renames to do at the end of the 1.13 cycles. Change-Id: I2dc541533d2ab0d06cb3d31d65df205ecfb151e8 Reviewed-on: https://go-review.googlesource.com/c/150140 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-11-18 08:34:38 -08:00
// Compiler frontend optimizations emit OBYTES2STRTMP nodes
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
// for the backend instead of slicebytetostringtmp calls
// when not instrumenting.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpStringMake, n.Type(), args[0], args[1])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
all...)
}
cmd/compile: add intrinsics for runtime/internal/math on 386 and amd64 Add generic, 386 and amd64 specific ops and SSA rules for multiplication with overflow and branching based on overflow flags. Use these to intrinsify runtime/internal/math.MulUinptr. On amd64 mul, overflow := math.MulUintptr(a, b) if overflow { is lowered to two instructions: MULQ SI JO 0x10ee35c No codegen tests as codegen can not currently test unexported internal runtime functions. amd64: name old time/op new time/op delta MulUintptr/small 1.16ns ± 5% 0.88ns ± 6% -24.36% (p=0.000 n=19+20) MulUintptr/large 10.7ns ± 1% 1.1ns ± 1% -89.28% (p=0.000 n=17+19) Change-Id: If60739a86f820e5044d677276c21df90d3c7a86a Reviewed-on: https://go-review.googlesource.com/c/141820 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-01-27 11:55:34 +01:00
addF("runtime/internal/math", "MulUintptr",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: add intrinsics for runtime/internal/math on 386 and amd64 Add generic, 386 and amd64 specific ops and SSA rules for multiplication with overflow and branching based on overflow flags. Use these to intrinsify runtime/internal/math.MulUinptr. On amd64 mul, overflow := math.MulUintptr(a, b) if overflow { is lowered to two instructions: MULQ SI JO 0x10ee35c No codegen tests as codegen can not currently test unexported internal runtime functions. amd64: name old time/op new time/op delta MulUintptr/small 1.16ns ± 5% 0.88ns ± 6% -24.36% (p=0.000 n=19+20) MulUintptr/large 10.7ns ± 1% 1.1ns ± 1% -89.28% (p=0.000 n=17+19) Change-Id: If60739a86f820e5044d677276c21df90d3c7a86a Reviewed-on: https://go-review.googlesource.com/c/141820 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-01-27 11:55:34 +01:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpMul32uover, types.NewTuple(types.Types[types.TUINT], types.Types[types.TUINT]), args[0], args[1])
cmd/compile: add intrinsics for runtime/internal/math on 386 and amd64 Add generic, 386 and amd64 specific ops and SSA rules for multiplication with overflow and branching based on overflow flags. Use these to intrinsify runtime/internal/math.MulUinptr. On amd64 mul, overflow := math.MulUintptr(a, b) if overflow { is lowered to two instructions: MULQ SI JO 0x10ee35c No codegen tests as codegen can not currently test unexported internal runtime functions. amd64: name old time/op new time/op delta MulUintptr/small 1.16ns ± 5% 0.88ns ± 6% -24.36% (p=0.000 n=19+20) MulUintptr/large 10.7ns ± 1% 1.1ns ± 1% -89.28% (p=0.000 n=17+19) Change-Id: If60739a86f820e5044d677276c21df90d3c7a86a Reviewed-on: https://go-review.googlesource.com/c/141820 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-01-27 11:55:34 +01:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpMul64uover, types.NewTuple(types.Types[types.TUINT], types.Types[types.TUINT]), args[0], args[1])
cmd/compile: add intrinsics for runtime/internal/math on 386 and amd64 Add generic, 386 and amd64 specific ops and SSA rules for multiplication with overflow and branching based on overflow flags. Use these to intrinsify runtime/internal/math.MulUinptr. On amd64 mul, overflow := math.MulUintptr(a, b) if overflow { is lowered to two instructions: MULQ SI JO 0x10ee35c No codegen tests as codegen can not currently test unexported internal runtime functions. amd64: name old time/op new time/op delta MulUintptr/small 1.16ns ± 5% 0.88ns ± 6% -24.36% (p=0.000 n=19+20) MulUintptr/large 10.7ns ± 1% 1.1ns ± 1% -89.28% (p=0.000 n=17+19) Change-Id: If60739a86f820e5044d677276c21df90d3c7a86a Reviewed-on: https://go-review.googlesource.com/c/141820 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-01-27 11:55:34 +01:00
},
cmd/compile: add intrinsics for runtime/internal/math on MIPS64x name old time/op new time/op delta MulUintptr/small 8.42ns ± 0% 5.93ns ± 0% -29.66% (p=0.000 n=9+10) MulUintptr/large 11.1ns ± 0% 7.4ns ± 0% -33.17% (p=0.000 n=10+9) Change-Id: I6659a886389660461fc2c90bd248243f6e7c29d5 Reviewed-on: https://go-review.googlesource.com/c/go/+/210897 Run-TryBot: Meng Zhuo <mengzhuo1203@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-02-29 11:23:29 +08:00
sys.AMD64, sys.I386, sys.MIPS64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
add("runtime", "KeepAlive",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
data := s.newValue1(ssa.OpIData, s.f.Config.Types.BytePtr, args[0])
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue2(ssa.OpKeepAlive, types.TypeMem, data, s.mem())
cmd/compile: args no longer live until end-of-function We're dropping this behavior in favor of runtime.KeepAlive. Implement runtime.KeepAlive as an intrinsic. Update #15843 Change-Id: Ib60225bd30d6770ece1c3c7d1339a06aa25b1cbc Reviewed-on: https://go-review.googlesource.com/28310 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-08-31 15:17:02 -07:00
return nil
},
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
all...)
runtime, cmd/compile: add intrinsic getclosureptr Intrinsic enabled on all architectures, runtime asm implementation removed on all architectures. Fixes #21258 Change-Id: I2cb86d460b497c2f287a5b3df5c37fdb231c23a7 Reviewed-on: https://go-review.googlesource.com/53411 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-05 14:44:00 +08:00
add("runtime", "getclosureptr",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
runtime, cmd/compile: add intrinsic getclosureptr Intrinsic enabled on all architectures, runtime asm implementation removed on all architectures. Fixes #21258 Change-Id: I2cb86d460b497c2f287a5b3df5c37fdb231c23a7 Reviewed-on: https://go-review.googlesource.com/53411 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-05 14:44:00 +08:00
return s.newValue0(ssa.OpGetClosurePtr, s.f.Config.Types.Uintptr)
},
all...)
cmd/compile: intrinsify slicebytetostringtmp when not instrumenting when not instrumenting: - Intrinsify uses of slicebytetostringtmp within the runtime package in the ssa backend. - Pass OARRAYBYTESTRTMP nodes to the compiler backends for lowering instead of generating calls to slicebytetostringtmp. name old time/op new time/op delta ConcatStringAndBytes-4 27.9ns ± 2% 24.7ns ± 2% -11.52% (p=0.000 n=43+43) Fixes #17044 Change-Id: I51ce9c3b93284ce526edd0234f094e98580faf2d Reviewed-on: https://go-review.googlesource.com/29017 Run-TryBot: Martin Möhrmann <martisch@uos.de> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-10 22:44:00 +02:00
cmd/compile: intrinsify runtime.getcallerpc on all link register architectures Add a compiler intrinsic for getcallerpc on following architectures: arm mips mipsle mips64 mips64le ppc64 ppc64le s390x Change-Id: I758f3d4742fc214b206bcd07d90408622c17dbef Reviewed-on: https://go-review.googlesource.com/110835 Run-TryBot: Wei Xiao <Wei.Xiao@arm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-05-02 14:25:00 +08:00
add("runtime", "getcallerpc",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: add intrinsic for reading caller's pc First step towards removing the mandatory argument for getcallerpc, which solves certain problems for the runtime. This might also slightly improve performance. Intrinsic enabled on 386, amd64, amd64p32, runtime asm implementation removed on those architectures. Now-superfluous argument remains in getcallerpc signature (for a future CL; non-386/amd64 asm funcs ignore it). Added getcallerpc to the "not a real function" test in dcl.go, that story is a little odd with respect to unexported functions but that is not this CL. Fixes #17327. Change-Id: I5df1ad91f27ee9ac1f0dd88fa48f1329d6306c3e Reviewed-on: https://go-review.googlesource.com/31851 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2016-10-24 10:25:05 -04:00
return s.newValue0(ssa.OpGetCallerPC, s.f.Config.Types.Uintptr)
cmd/compile: intrinsify runtime.getcallerpc on all link register architectures Add a compiler intrinsic for getcallerpc on following architectures: arm mips mipsle mips64 mips64le ppc64 ppc64le s390x Change-Id: I758f3d4742fc214b206bcd07d90408622c17dbef Reviewed-on: https://go-review.googlesource.com/110835 Run-TryBot: Wei Xiao <Wei.Xiao@arm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-05-02 14:25:00 +08:00
},
all...)
cmd/compile: add intrinsic for reading caller's pc First step towards removing the mandatory argument for getcallerpc, which solves certain problems for the runtime. This might also slightly improve performance. Intrinsic enabled on 386, amd64, amd64p32, runtime asm implementation removed on those architectures. Now-superfluous argument remains in getcallerpc signature (for a future CL; non-386/amd64 asm funcs ignore it). Added getcallerpc to the "not a real function" test in dcl.go, that story is a little odd with respect to unexported functions but that is not this CL. Fixes #17327. Change-Id: I5df1ad91f27ee9ac1f0dd88fa48f1329d6306c3e Reviewed-on: https://go-review.googlesource.com/31851 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2016-10-24 10:25:05 -04:00
cmd/compile: intrinsify runtime.getcallersp Add a compiler intrinsic for getcallersp. So we are able to get rid of the argument (not done in this CL). Change-Id: Ic38fda1c694f918328659ab44654198fb116668d Reviewed-on: https://go-review.googlesource.com/69350 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: David Chase <drchase@google.com>
2017-10-09 15:33:29 -04:00
add("runtime", "getcallersp",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: intrinsify runtime.getcallersp Add a compiler intrinsic for getcallersp. So we are able to get rid of the argument (not done in this CL). Change-Id: Ic38fda1c694f918328659ab44654198fb116668d Reviewed-on: https://go-review.googlesource.com/69350 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: David Chase <drchase@google.com>
2017-10-09 15:33:29 -04:00
return s.newValue0(ssa.OpGetCallerSP, s.f.Config.Types.Uintptr)
},
all...)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
/******** runtime/internal/sys ********/
addF("runtime/internal/sys", "Ctz32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz32, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: intrinsify runtime/internal/sys.Ctz{32,64} on ppc64 These functions are identical to math/bits.TrailingZeros{32,64}, which are already intrinsified on ppc64. Change-Id: If7ee57e7afe53154874f4b66bacdb6237806128a Reviewed-on: https://go-review.googlesource.com/70350 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-12 11:45:35 -07:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/sys", "Ctz64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz64, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: intrinsify runtime/internal/sys.Ctz{32,64} on ppc64 These functions are identical to math/bits.TrailingZeros{32,64}, which are already intrinsified on ppc64. Change-Id: If7ee57e7afe53154874f4b66bacdb6237806128a Reviewed-on: https://go-review.googlesource.com/70350 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-12 11:45:35 -07:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/sys", "Bswap32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBswap32, types.Types[types.TUINT32], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X)
addF("runtime/internal/sys", "Bswap64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBswap64, types.Types[types.TUINT64], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
/******** runtime/internal/atomic ********/
addF("runtime/internal/atomic", "Load",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue2(ssa.OpAtomicLoad32, types.NewTuple(types.Types[types.TUINT32], types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT32], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Load32/Load64/Store32/Store64 atomic intrinsics on riscv64 Updates #36765 Change-Id: Id5ce5c5f60112e4f4cf9eec1b1ec120994934950 Reviewed-on: https://go-review.googlesource.com/c/go/+/223558 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:47:40 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile,runtime/internal/atomic: add Load8 Change-Id: Id52a5730cf9207ee7ccebac4ef12791dc5720e7c Reviewed-on: https://go-review.googlesource.com/c/go/+/172283 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-28 14:58:06 -04:00
addF("runtime/internal/atomic", "Load8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue2(ssa.OpAtomicLoad8, types.NewTuple(types.Types[types.TUINT8], types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT8], v)
cmd/compile,runtime/internal/atomic: add Load8 Change-Id: Id52a5730cf9207ee7ccebac4ef12791dc5720e7c Reviewed-on: https://go-review.googlesource.com/c/go/+/172283 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-03-28 14:58:06 -04:00
},
cmd/compile: provide Load8/Store8 atomic intrinsics on riscv64 Updates #36765 Change-Id: Ieeb6bbc54e4841a1348ad50e80342ec4bc675e07 Reviewed-on: https://go-review.googlesource.com/c/go/+/223557 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:38:43 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Load64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue2(ssa.OpAtomicLoad64, types.NewTuple(types.Types[types.TUINT64], types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT64], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Load32/Load64/Store32/Store64 atomic intrinsics on riscv64 Updates #36765 Change-Id: Id5ce5c5f60112e4f4cf9eec1b1ec120994934950 Reviewed-on: https://go-review.googlesource.com/c/go/+/223558 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:47:40 +11:00
sys.AMD64, sys.ARM64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
addF("runtime/internal/atomic", "LoadAcq",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue2(ssa.OpAtomicLoadAcq32, types.NewTuple(types.Types[types.TUINT32], types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT32], v)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
},
cmd/compile, runtime: make atomic loads/stores sequentially consistent on s390x The z/Architecture does not guarantee that a load following a store will not be reordered with that store, unless they access the same address. Therefore if we want to ensure the sequential consistency of atomic loads and stores we need to perform serialization operations after atomic stores. We do not need to serialize in the runtime when using StoreRel[ease] and LoadAcq[uire]. The z/Architecture already provides sufficient ordering guarantees for these operations. name old time/op new time/op delta AtomicLoad64-16 0.51ns ± 0% 0.51ns ± 0% ~ (all equal) AtomicStore64-16 0.51ns ± 0% 0.60ns ± 9% +16.47% (p=0.000 n=17+20) AtomicLoad-16 0.51ns ± 0% 0.51ns ± 0% ~ (all equal) AtomicStore-16 0.51ns ± 0% 0.60ns ± 9% +16.50% (p=0.000 n=18+20) Fixes #32428. Change-Id: I88d19a4010c46070e4fff4b41587efe4c628d4d9 Reviewed-on: https://go-review.googlesource.com/c/go/+/180439 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2019-06-04 19:17:41 +01:00
sys.PPC64, sys.S390X)
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
addF("runtime/internal/atomic", "LoadAcq64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue2(ssa.OpAtomicLoadAcq64, types.NewTuple(types.Types[types.TUINT64], types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT64], v)
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
},
sys.PPC64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Loadp",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
v := s.newValue2(ssa.OpAtomicLoadPtr, types.NewTuple(s.f.Config.Types.BytePtr, types.TypeMem), args[0], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
return s.newValue1(ssa.OpSelect0, s.f.Config.Types.BytePtr, v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Load32/Load64/Store32/Store64 atomic intrinsics on riscv64 Updates #36765 Change-Id: Id5ce5c5f60112e4f4cf9eec1b1ec120994934950 Reviewed-on: https://go-review.googlesource.com/c/go/+/223558 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:47:40 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Store",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStore32, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
return nil
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Load32/Load64/Store32/Store64 atomic intrinsics on riscv64 Updates #36765 Change-Id: Id5ce5c5f60112e4f4cf9eec1b1ec120994934950 Reviewed-on: https://go-review.googlesource.com/c/go/+/223558 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:47:40 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for runtime/internal/atomic.Store8 For #10958, #24543, but makes sense on its own. Change-Id: I2a87dab66b82a1863e4b6512b1f8def51463ce2a Reviewed-on: https://go-review.googlesource.com/c/go/+/203284 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-10-23 10:20:49 -04:00
addF("runtime/internal/atomic", "Store8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStore8, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsics for runtime/internal/atomic.Store8 For #10958, #24543, but makes sense on its own. Change-Id: I2a87dab66b82a1863e4b6512b1f8def51463ce2a Reviewed-on: https://go-review.googlesource.com/c/go/+/203284 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-10-23 10:20:49 -04:00
return nil
},
cmd/compile: provide Load8/Store8 atomic intrinsics on riscv64 Updates #36765 Change-Id: Ieeb6bbc54e4841a1348ad50e80342ec4bc675e07 Reviewed-on: https://go-review.googlesource.com/c/go/+/223557 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:38:43 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Store64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStore64, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
return nil
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Load32/Load64/Store32/Store64 atomic intrinsics on riscv64 Updates #36765 Change-Id: Id5ce5c5f60112e4f4cf9eec1b1ec120994934950 Reviewed-on: https://go-review.googlesource.com/c/go/+/223558 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-03-16 02:47:40 +11:00
sys.AMD64, sys.ARM64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "StorepNoWB",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStorePtrNoWB, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
return nil
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Add/Cas/Exchange atomic intrinsics on riscv64 Provide Add32, Add64, Cas32, Cas64, Exchange32 and Exchange64 atomic intrinsics on riscv64. Updates #36765 Change-Id: I9a3b7d2ce3d49f699171fd76a0fed891d149a6bb Reviewed-on: https://go-review.googlesource.com/c/go/+/223559 Run-TryBot: Joel Sing <joel@sing.id.au> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-16 02:51:54 +11:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.MIPS64, sys.RISCV64, sys.S390X)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
addF("runtime/internal/atomic", "StoreRel",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStoreRel32, types.TypeMem, args[0], args[1], s.mem())
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
return nil
},
cmd/compile, runtime: make atomic loads/stores sequentially consistent on s390x The z/Architecture does not guarantee that a load following a store will not be reordered with that store, unless they access the same address. Therefore if we want to ensure the sequential consistency of atomic loads and stores we need to perform serialization operations after atomic stores. We do not need to serialize in the runtime when using StoreRel[ease] and LoadAcq[uire]. The z/Architecture already provides sufficient ordering guarantees for these operations. name old time/op new time/op delta AtomicLoad64-16 0.51ns ± 0% 0.51ns ± 0% ~ (all equal) AtomicStore64-16 0.51ns ± 0% 0.60ns ± 9% +16.47% (p=0.000 n=17+20) AtomicLoad-16 0.51ns ± 0% 0.51ns ± 0% ~ (all equal) AtomicStore-16 0.51ns ± 0% 0.60ns ± 9% +16.50% (p=0.000 n=18+20) Fixes #32428. Change-Id: I88d19a4010c46070e4fff4b41587efe4c628d4d9 Reviewed-on: https://go-review.googlesource.com/c/go/+/180439 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2019-06-04 19:17:41 +01:00
sys.PPC64, sys.S390X)
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
addF("runtime/internal/atomic", "StoreRel64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicStoreRel64, types.TypeMem, args[0], args[1], s.mem())
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
return nil
},
sys.PPC64)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Xchg",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue3(ssa.OpAtomicExchange32, types.NewTuple(types.Types[types.TUINT32], types.TypeMem), args[0], args[1], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT32], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Xchg64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue3(ssa.OpAtomicExchange64, types.NewTuple(types.Types[types.TUINT64], types.TypeMem), args[0], args[1], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT64], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: provide Add/Cas/Exchange atomic intrinsics on riscv64 Provide Add32, Add64, Cas32, Cas64, Exchange32 and Exchange64 atomic intrinsics on riscv64. Updates #36765 Change-Id: I9a3b7d2ce3d49f699171fd76a0fed891d149a6bb Reviewed-on: https://go-review.googlesource.com/c/go/+/223559 Run-TryBot: Joel Sing <joel@sing.id.au> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2020-03-16 02:51:54 +11:00
sys.AMD64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
type atomicOpEmitter func(s *state, n ir.Node, args []*ssa.Value, op ssa.Op, typ types.EType)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
makeAtomicGuardedIntrinsicARM64 := func(op0, op1 ssa.Op, typ, rtyp types.EType, emit atomicOpEmitter) intrinsicBuilder {
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
return func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
// Target Atomic feature is identified by dynamic detection
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
addr := s.entryNewValue1A(ssa.OpAddr, types.Types[types.TBOOL].PtrTo(), arm64HasATOMICS, s.sb)
v := s.load(types.Types[types.TBOOL], addr)
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(v)
bTrue := s.f.NewBlock(ssa.BlockPlain)
bFalse := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bTrue)
b.AddEdgeTo(bFalse)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
b.Likely = ssa.BranchLikely
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
// We have atomic instructions - use it directly.
s.startBlock(bTrue)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
emit(s, n, args, op1, typ)
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
s.endBlock().AddEdgeTo(bEnd)
// Use original instruction sequence.
s.startBlock(bFalse)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
emit(s, n, args, op0, typ)
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
s.endBlock().AddEdgeTo(bEnd)
// Merge results.
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if rtyp == types.TNIL {
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
return nil
} else {
return s.variable(n, types.Types[rtyp])
}
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
}
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
atomicXchgXaddEmitterARM64 := func(s *state, n ir.Node, args []*ssa.Value, op ssa.Op, typ types.EType) {
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
v := s.newValue3(op, types.NewTuple(types.Types[typ], types.TypeMem), args[0], args[1], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
s.vars[n] = s.newValue1(ssa.OpSelect0, types.Types[typ], v)
}
addF("runtime/internal/atomic", "Xchg",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicExchange32, ssa.OpAtomicExchange32Variant, types.TUINT32, types.TUINT32, atomicXchgXaddEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Xchg64",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicExchange64, ssa.OpAtomicExchange64Variant, types.TUINT64, types.TUINT64, atomicXchgXaddEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Xadd",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue3(ssa.OpAtomicAdd32, types.NewTuple(types.Types[types.TUINT32], types.TypeMem), args[0], args[1], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT32], v)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
},
sys.AMD64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
addF("runtime/internal/atomic", "Xadd64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.newValue3(ssa.OpAtomicAdd64, types.NewTuple(types.Types[types.TUINT64], types.TypeMem), args[0], args[1], s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSelect0, types.Types[types.TUINT64], v)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
},
sys.AMD64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
addF("runtime/internal/atomic", "Xadd",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicAdd32, ssa.OpAtomicAdd32Variant, types.TUINT32, types.TUINT32, atomicXchgXaddEmitterARM64),
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Xadd64",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicAdd64, ssa.OpAtomicAdd64Variant, types.TUINT64, types.TUINT64, atomicXchgXaddEmitterARM64),
cmd/compile: improve atomic add intrinsics with ARMv8.1 new instruction ARMv8.1 has added new instruction (LDADDAL) for atomic memory operations. This CL improves existing atomic add intrinsics with the new instruction. Since the new instruction is only guaranteed to be present after ARMv8.1, we guard its usage with a conditional on CPU feature. Performance result on ARMv8.1 machine: name old time/op new time/op delta Xadd-224 1.05µs ± 6% 0.02µs ± 4% -98.06% (p=0.000 n=10+8) Xadd64-224 1.05µs ± 3% 0.02µs ±13% -98.10% (p=0.000 n=9+10) [Geo mean] 1.05µs 0.02µs -98.08% Performance result on ARMv8.0 machine: name old time/op new time/op delta Xadd-46 538ns ± 1% 541ns ± 1% +0.62% (p=0.000 n=9+9) Xadd64-46 505ns ± 1% 508ns ± 0% +0.48% (p=0.003 n=9+8) [Geo mean] 521ns 524ns +0.55% Change-Id: If4b5d8d0e2d6f84fe1492a4f5de0789910ad0ee9 Reviewed-on: https://go-review.googlesource.com/81877 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-03 02:05:28 +00:00
sys.ARM64)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Cas",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
v := s.newValue4(ssa.OpAtomicCompareAndSwap32, types.NewTuple(types.Types[types.TBOOL], types.TypeMem), args[0], args[1], args[2], s.mem())
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
return s.newValue1(ssa.OpSelect0, types.Types[types.TBOOL], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Cas64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
v := s.newValue4(ssa.OpAtomicCompareAndSwap64, types.NewTuple(types.Types[types.TBOOL], types.TypeMem), args[0], args[1], args[2], s.mem())
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
return s.newValue1(ssa.OpSelect0, types.Types[types.TBOOL], v)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
addF("runtime/internal/atomic", "CasRel",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
v := s.newValue4(ssa.OpAtomicCompareAndSwap32, types.NewTuple(types.Types[types.TBOOL], types.TypeMem), args[0], args[1], args[2], s.mem())
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
return s.newValue1(ssa.OpSelect0, types.Types[types.TBOOL], v)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
},
sys.PPC64)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
atomicCasEmitterARM64 := func(s *state, n ir.Node, args []*ssa.Value, op ssa.Op, typ types.EType) {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
v := s.newValue4(op, types.NewTuple(types.Types[types.TBOOL], types.TypeMem), args[0], args[1], args[2], s.mem())
s.vars[memVar] = s.newValue1(ssa.OpSelect1, types.TypeMem, v)
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
s.vars[n] = s.newValue1(ssa.OpSelect0, types.Types[typ], v)
}
addF("runtime/internal/atomic", "Cas",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicCompareAndSwap32, ssa.OpAtomicCompareAndSwap32Variant, types.TUINT32, types.TBOOL, atomicCasEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Cas64",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicCompareAndSwap64, ssa.OpAtomicCompareAndSwap64Variant, types.TUINT64, types.TBOOL, atomicCasEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "And8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicAnd8, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
return nil
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS, sys.PPC64, sys.S390X)
cmd/compile: intrinsify runtime/internal/atomic.{And,Or} on AMD64 These are identical to And8 and Or8, just using ANDL/ORL instead of ANDB/ORB. Change-Id: I99cf90a8b0b5f211fb23325dddd55821875f0c8f Reviewed-on: https://go-review.googlesource.com/c/go/+/263140 Run-TryBot: Michael Pratt <mpratt@google.com> TryBot-Result: Go Bot <gobot@golang.org> Trust: Michael Pratt <mpratt@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-09 12:41:50 -04:00
addF("runtime/internal/atomic", "And",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicAnd32, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify runtime/internal/atomic.{And,Or} on AMD64 These are identical to And8 and Or8, just using ANDL/ORL instead of ANDB/ORB. Change-Id: I99cf90a8b0b5f211fb23325dddd55821875f0c8f Reviewed-on: https://go-review.googlesource.com/c/go/+/263140 Run-TryBot: Michael Pratt <mpratt@google.com> TryBot-Result: Go Bot <gobot@golang.org> Trust: Michael Pratt <mpratt@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-09 12:41:50 -04:00
return nil
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS, sys.PPC64, sys.S390X)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("runtime/internal/atomic", "Or8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicOr8, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
return nil
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile, runtime: intrinsify atomic And8 and Or8 on s390x Intrinsify these functions to match other platforms. Update the sequence of instructions used in the assembly implementations to match the intrinsics. Also, add a micro benchmark so we can more easily measure the performance of these two functions: name old time/op new time/op delta And8-8 5.33ns ± 7% 2.55ns ± 8% -52.12% (p=0.000 n=20+20) And8Parallel-8 7.39ns ± 5% 3.74ns ± 4% -49.34% (p=0.000 n=20+20) Or8-8 4.84ns ±15% 2.64ns ±11% -45.50% (p=0.000 n=20+20) Or8Parallel-8 7.27ns ± 3% 3.84ns ± 4% -47.10% (p=0.000 n=19+20) By using a 'rotate then xor selected bits' instruction combined with either a 'load and and' or a 'load and or' instruction we can implement And8 and Or8 with far fewer instructions. Replacing 'compare and swap' with atomic instructions may also improve performance when there is contention. Change-Id: I28bb8032052b73ae8ccdf6e4c612d2877085fa01 Reviewed-on: https://go-review.googlesource.com/c/go/+/204277 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-10-23 06:43:23 -07:00
sys.AMD64, sys.ARM64, sys.MIPS, sys.PPC64, sys.S390X)
cmd/compile: intrinsify runtime/internal/atomic.{And,Or} on AMD64 These are identical to And8 and Or8, just using ANDL/ORL instead of ANDB/ORB. Change-Id: I99cf90a8b0b5f211fb23325dddd55821875f0c8f Reviewed-on: https://go-review.googlesource.com/c/go/+/263140 Run-TryBot: Michael Pratt <mpratt@google.com> TryBot-Result: Go Bot <gobot@golang.org> Trust: Michael Pratt <mpratt@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-09 12:41:50 -04:00
addF("runtime/internal/atomic", "Or",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(ssa.OpAtomicOr32, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: intrinsify runtime/internal/atomic.{And,Or} on AMD64 These are identical to And8 and Or8, just using ANDL/ORL instead of ANDB/ORB. Change-Id: I99cf90a8b0b5f211fb23325dddd55821875f0c8f Reviewed-on: https://go-review.googlesource.com/c/go/+/263140 Run-TryBot: Michael Pratt <mpratt@google.com> TryBot-Result: Go Bot <gobot@golang.org> Trust: Michael Pratt <mpratt@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-09 12:41:50 -04:00
return nil
},
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.AMD64, sys.MIPS, sys.PPC64, sys.S390X)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
atomicAndOrEmitterARM64 := func(s *state, n ir.Node, args []*ssa.Value, op ssa.Op, typ types.EType) {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3(op, types.TypeMem, args[0], args[1], s.mem())
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
}
addF("runtime/internal/atomic", "And8",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicAnd8, ssa.OpAtomicAnd8Variant, types.TNIL, types.TNIL, atomicAndOrEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "And",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicAnd32, ssa.OpAtomicAnd32Variant, types.TNIL, types.TNIL, atomicAndOrEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Or8",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicOr8, ssa.OpAtomicOr8Variant, types.TNIL, types.TNIL, atomicAndOrEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
addF("runtime/internal/atomic", "Or",
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
makeAtomicGuardedIntrinsicARM64(ssa.OpAtomicOr32, ssa.OpAtomicOr32Variant, types.TNIL, types.TNIL, atomicAndOrEmitterARM64),
cmd/compile: improve atomic swap intrinsics on arm64 ARMv8.1 has added new instructions for atomic memory operations. This change builds on the previous change which added support for atomic add, 0a7ac93c27c9ade79fe0f66ae0bb81484c241ae5, to include similar support for atomic-compare-and-swap, atomic-swap, atomic-or, and atomic-and intrinsics. Since the new instructions are not guaranteed to be present, we guard their usages with a branch on a CPU feature. Peformance on an ARMv8.1 machine: name old time/op new time/op delta CompareAndSwap-16 37.9ns ±16% 24.1ns ± 4% -36.44% (p=0.000 n=10+9) CompareAndSwap64-16 38.6ns ±15% 24.1ns ± 3% -37.47% (p=0.000 n=10+10) name old time/op new time/op delta Swap-16 46.9ns ±32% 12.5ns ± 6% -73.40% (p=0.000 n=10+10) Swap64-16 53.4ns ± 1% 12.5ns ± 6% -76.56% (p=0.000 n=10+10) name old time/op new time/op delta Or8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) Or-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) Or8Parallel-16 59.8ns ± 3% 12.5ns ± 2% -79.10% (p=0.000 n=10+10) OrParallel-16 51.7ns ± 3% 12.5ns ± 2% -75.84% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 8.81ns ± 0% 5.61ns ± 0% -36.32% (p=0.000 n=10+10) And-16 7.21ns ± 0% 5.61ns ± 0% -22.19% (p=0.000 n=10+10) And8Parallel-16 59.1ns ± 6% 12.8ns ± 3% -78.33% (p=0.000 n=10+10) AndParallel-16 51.4ns ± 7% 12.8ns ± 3% -75.03% (p=0.000 n=10+10) Performance on an ARMv8.0 machine (no atomics instructions): name old time/op new time/op delta CompareAndSwap-16 61.3ns ± 0% 62.4ns ± 0% +1.70% (p=0.000 n=8+9) CompareAndSwap64-16 62.0ns ± 3% 61.3ns ± 2% ~ (p=0.093 n=10+10) name old time/op new time/op delta Swap-16 127ns ± 2% 131ns ± 2% +2.91% (p=0.001 n=10+10) Swap64-16 128ns ± 1% 131ns ± 2% +2.43% (p=0.001 n=10+10) name old time/op new time/op delta Or8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) Or-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) Or8Parallel-16 137ns ± 1% 144ns ± 1% +4.97% (p=0.000 n=10+10) OrParallel-16 128ns ± 1% 136ns ± 1% +6.34% (p=0.000 n=10+10) name old time/op new time/op delta And8-16 14.9ns ± 0% 15.3ns ± 0% +2.68% (p=0.000 n=10+10) And-16 11.8ns ± 0% 12.3ns ± 0% +4.24% (p=0.000 n=10+10) And8Parallel-16 134ns ± 2% 141ns ± 1% +5.29% (p=0.000 n=10+10) AndParallel-16 125ns ± 2% 134ns ± 1% +7.10% (p=0.000 n=10+10) Fixes #39304 Change-Id: Idaca68701d4751650be6b4bedca3d57f51571712 Reviewed-on: https://go-review.googlesource.com/c/go/+/234217 Run-TryBot: Emmanuel Odeke <emmanuel@orijtech.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: fannie zhang <Fannie.Zhang@arm.com>
2020-11-04 16:18:23 +00:00
sys.ARM64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
alias("runtime/internal/atomic", "Loadint64", "runtime/internal/atomic", "Load64", all...)
alias("runtime/internal/atomic", "Xaddint64", "runtime/internal/atomic", "Xadd64", all...)
cmd/compile: cleanup after IntSize->PtrSize conversion Also, replace "PtrSize == 4 && Arch != amd64p32" with "RegSize == 4". Passes toolstash-check -all. Updates #19954. Change-Id: I79b2ee9324f4fa53e34c9271d837ea288b5d7829 Reviewed-on: https://go-review.googlesource.com/41491 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-04-21 19:16:15 -07:00
alias("runtime/internal/atomic", "Loaduint", "runtime/internal/atomic", "Load", p4...)
alias("runtime/internal/atomic", "Loaduint", "runtime/internal/atomic", "Load64", p8...)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
alias("runtime/internal/atomic", "Loaduintptr", "runtime/internal/atomic", "Load", p4...)
alias("runtime/internal/atomic", "Loaduintptr", "runtime/internal/atomic", "Load64", p8...)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
alias("runtime/internal/atomic", "LoadAcq", "runtime/internal/atomic", "Load", lwatomics...)
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
alias("runtime/internal/atomic", "LoadAcq64", "runtime/internal/atomic", "Load64", lwatomics...)
alias("runtime/internal/atomic", "LoadAcquintptr", "runtime/internal/atomic", "LoadAcq", p4...)
cmd/go,cmd/compile,sync: remove special import case in cmd/go CL 253748 introduced a special case in cmd/go to allow sync to import runtime/internal/atomic. Besides introducing unnecessary complexity into cmd/go, this breaks other packages (like gopls) that understand how imports work, but don't understand this special case. Fix this by using the more standard linkname-based approach to pull the necessary functions from runtime/internal/atomic into sync. Since these are compiler intrinsics, we also have to tell the compiler that the linknamed symbols are intrinsics to get this optimization in sync. Fixes #42196. Change-Id: I1f91498c255c91583950886a89c3c9adc39a32f0 Reviewed-on: https://go-review.googlesource.com/c/go/+/265124 Trust: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Bryan C. Mills <bcmills@google.com> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Paul Murphy <murp@ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-26 14:32:13 -04:00
alias("sync", "runtime_LoadAcquintptr", "runtime/internal/atomic", "LoadAcq", p4...) // linknamed
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
alias("runtime/internal/atomic", "LoadAcquintptr", "runtime/internal/atomic", "LoadAcq64", p8...)
cmd/go,cmd/compile,sync: remove special import case in cmd/go CL 253748 introduced a special case in cmd/go to allow sync to import runtime/internal/atomic. Besides introducing unnecessary complexity into cmd/go, this breaks other packages (like gopls) that understand how imports work, but don't understand this special case. Fix this by using the more standard linkname-based approach to pull the necessary functions from runtime/internal/atomic into sync. Since these are compiler intrinsics, we also have to tell the compiler that the linknamed symbols are intrinsics to get this optimization in sync. Fixes #42196. Change-Id: I1f91498c255c91583950886a89c3c9adc39a32f0 Reviewed-on: https://go-review.googlesource.com/c/go/+/265124 Trust: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Bryan C. Mills <bcmills@google.com> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Paul Murphy <murp@ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-26 14:32:13 -04:00
alias("sync", "runtime_LoadAcquintptr", "runtime/internal/atomic", "LoadAcq64", p8...) // linknamed
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
alias("runtime/internal/atomic", "Storeuintptr", "runtime/internal/atomic", "Store", p4...)
alias("runtime/internal/atomic", "Storeuintptr", "runtime/internal/atomic", "Store64", p8...)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
alias("runtime/internal/atomic", "StoreRel", "runtime/internal/atomic", "Store", lwatomics...)
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
alias("runtime/internal/atomic", "StoreRel64", "runtime/internal/atomic", "Store64", lwatomics...)
alias("runtime/internal/atomic", "StoreReluintptr", "runtime/internal/atomic", "StoreRel", p4...)
cmd/go,cmd/compile,sync: remove special import case in cmd/go CL 253748 introduced a special case in cmd/go to allow sync to import runtime/internal/atomic. Besides introducing unnecessary complexity into cmd/go, this breaks other packages (like gopls) that understand how imports work, but don't understand this special case. Fix this by using the more standard linkname-based approach to pull the necessary functions from runtime/internal/atomic into sync. Since these are compiler intrinsics, we also have to tell the compiler that the linknamed symbols are intrinsics to get this optimization in sync. Fixes #42196. Change-Id: I1f91498c255c91583950886a89c3c9adc39a32f0 Reviewed-on: https://go-review.googlesource.com/c/go/+/265124 Trust: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Bryan C. Mills <bcmills@google.com> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Paul Murphy <murp@ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-26 14:32:13 -04:00
alias("sync", "runtime_StoreReluintptr", "runtime/internal/atomic", "StoreRel", p4...) // linknamed
cmd/compiler,cmd/go,sync: add internal {LoadAcq,StoreRel}64 on ppc64 Add an internal atomic intrinsic for load with acquire semantics (extending LoadAcq to 64b) and add LoadAcquintptr for internal use within the sync package. For other arches, this remaps to the appropriate atomic.Load{,64} intrinsic which should not alter code generation. Similarly, add StoreRel{uintptr,64} for consistency, and inline. Finally, add an exception to allow sync to directly use the runtime/internal/atomic package which avoids more convoluted workarounds (contributed by Lynn Boger). In an extreme example, sync.(*Pool).pin consumes 20% of wall time during fmt tests. This is reduced to 5% on ppc64le/power9. From the fmt benchmarks on ppc64le: name old time/op new time/op delta SprintfPadding 468ns ± 0% 451ns ± 0% -3.63% SprintfEmpty 73.3ns ± 0% 51.9ns ± 0% -29.20% SprintfString 135ns ± 0% 122ns ± 0% -9.63% SprintfTruncateString 232ns ± 0% 214ns ± 0% -7.76% SprintfTruncateBytes 216ns ± 0% 202ns ± 0% -6.48% SprintfSlowParsingPath 162ns ± 0% 142ns ± 0% -12.35% SprintfQuoteString 1.00µs ± 0% 0.99µs ± 0% -1.39% SprintfInt 117ns ± 0% 104ns ± 0% -11.11% SprintfIntInt 190ns ± 0% 175ns ± 0% -7.89% SprintfPrefixedInt 232ns ± 0% 212ns ± 0% -8.62% SprintfFloat 270ns ± 0% 255ns ± 0% -5.56% SprintfComplex 1.01µs ± 0% 0.99µs ± 0% -1.68% SprintfBoolean 127ns ± 0% 111ns ± 0% -12.60% SprintfHexString 220ns ± 0% 198ns ± 0% -10.00% SprintfHexBytes 261ns ± 0% 252ns ± 0% -3.45% SprintfBytes 600ns ± 0% 590ns ± 0% -1.67% SprintfStringer 684ns ± 0% 658ns ± 0% -3.80% SprintfStructure 2.57µs ± 0% 2.57µs ± 0% -0.12% ManyArgs 669ns ± 0% 646ns ± 0% -3.44% FprintInt 140ns ± 0% 136ns ± 0% -2.86% FprintfBytes 184ns ± 0% 181ns ± 0% -1.63% FprintIntNoAlloc 140ns ± 0% 136ns ± 0% -2.86% ScanInts 929µs ± 0% 921µs ± 0% -0.79% ScanRecursiveInt 122ms ± 0% 121ms ± 0% -0.11% ScanRecursiveIntReaderWrapper 122ms ± 0% 122ms ± 0% -0.18% Change-Id: I4d66780261b57b06ef600229e475462e7313f0d6 Reviewed-on: https://go-review.googlesource.com/c/go/+/253748 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Trust: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-09-09 17:24:23 -05:00
alias("runtime/internal/atomic", "StoreReluintptr", "runtime/internal/atomic", "StoreRel64", p8...)
cmd/go,cmd/compile,sync: remove special import case in cmd/go CL 253748 introduced a special case in cmd/go to allow sync to import runtime/internal/atomic. Besides introducing unnecessary complexity into cmd/go, this breaks other packages (like gopls) that understand how imports work, but don't understand this special case. Fix this by using the more standard linkname-based approach to pull the necessary functions from runtime/internal/atomic into sync. Since these are compiler intrinsics, we also have to tell the compiler that the linknamed symbols are intrinsics to get this optimization in sync. Fixes #42196. Change-Id: I1f91498c255c91583950886a89c3c9adc39a32f0 Reviewed-on: https://go-review.googlesource.com/c/go/+/265124 Trust: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Bryan C. Mills <bcmills@google.com> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Paul Murphy <murp@ibm.com> TryBot-Result: Go Bot <gobot@golang.org>
2020-10-26 14:32:13 -04:00
alias("sync", "runtime_StoreReluintptr", "runtime/internal/atomic", "StoreRel64", p8...) // linknamed
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
alias("runtime/internal/atomic", "Xchguintptr", "runtime/internal/atomic", "Xchg", p4...)
alias("runtime/internal/atomic", "Xchguintptr", "runtime/internal/atomic", "Xchg64", p8...)
alias("runtime/internal/atomic", "Xadduintptr", "runtime/internal/atomic", "Xadd", p4...)
alias("runtime/internal/atomic", "Xadduintptr", "runtime/internal/atomic", "Xadd64", p8...)
alias("runtime/internal/atomic", "Casuintptr", "runtime/internal/atomic", "Cas", p4...)
alias("runtime/internal/atomic", "Casuintptr", "runtime/internal/atomic", "Cas64", p8...)
alias("runtime/internal/atomic", "Casp1", "runtime/internal/atomic", "Cas", p4...)
alias("runtime/internal/atomic", "Casp1", "runtime/internal/atomic", "Cas64", p8...)
cmd/compile, runtime: add new lightweight atomics for ppc64x This change creates the infrastructure for new lightweight atomics primitives in runtime/internal/atomic: - LoadAcq, for load-acquire - StoreRel, for store-release - CasRel, for Compare-and-Swap-release and implements them for ppc64x. There is visible performance improvement in producer-consumer scenarios, like BenchmarkChanProdCons*: benchmark old ns/op new ns/op delta BenchmarkChanProdCons0-48 2034 2034 +0.00% BenchmarkChanProdCons10-48 1798 1608 -10.57% BenchmarkChanProdCons100-48 1596 1585 -0.69% BenchmarkChanProdConsWork0-48 2084 2046 -1.82% BenchmarkChanProdConsWork10-48 1829 1668 -8.80% BenchmarkChanProdConsWork100-48 1650 1650 +0.00% Fixes #21348 Change-Id: I1f6ce377e4a0fe4bd7f5f775e8036f50070ad8db Reviewed-on: https://go-review.googlesource.com/c/142277 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-06 15:36:16 -05:00
alias("runtime/internal/atomic", "CasRel", "runtime/internal/atomic", "Cas", lwatomics...)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
/******** math ********/
addF("math", "Sqrt",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpSqrt, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: enable Sqrt as a compiler intrinsic on riscv64 Change-Id: I829a02ced9aa73b45079e67194186116b39504b0 Reviewed-on: https://go-review.googlesource.com/c/go/+/227805 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-04-13 01:45:12 +10:00
sys.I386, sys.AMD64, sys.ARM, sys.ARM64, sys.MIPS, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X, sys.Wasm)
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
addF("math", "Trunc",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpTrunc, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.PPC64, sys.S390X, sys.Wasm)
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
addF("math", "Ceil",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCeil, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.PPC64, sys.S390X, sys.Wasm)
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
addF("math", "Floor",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpFloor, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsics for trunc, floor, ceil on ppc64x This implements trunc, floor, and ceil in the math package as intrinsics on ppc64x. Significant improvement mainly due to avoiding call overhead of args and return value. BenchmarkCeil-16 5.95 0.69 -88.40% BenchmarkFloor-16 5.95 0.69 -88.40% BenchmarkTrunc-16 5.82 0.69 -88.14% Updates #21390 Change-Id: I951e182694f6e0c431da79c577272b81fb0ebad0 Reviewed-on: https://go-review.googlesource.com/54654 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: David Chase <drchase@google.com>
2017-08-09 13:53:34 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.PPC64, sys.S390X, sys.Wasm)
cmd/compile: add s390x intrinsics for Ceil, Floor, Round and Trunc Ceil, Floor and Trunc are pre-existing intrinsics. Round is a new function and has been added as an intrinsic in this CL. All of the functions can be implemented as a single 'LOAD FP INTEGER' instruction, FIDBR, on s390x. name old time/op new time/op delta Ceil 2.34ns ± 0% 0.85ns ± 0% -63.74% (p=0.000 n=5+4) Floor 2.33ns ± 0% 0.85ns ± 1% -63.35% (p=0.008 n=5+5) Round 4.23ns ± 0% 0.85ns ± 0% -79.89% (p=0.000 n=5+4) Trunc 2.35ns ± 0% 0.85ns ± 0% -63.83% (p=0.029 n=4+4) Change-Id: Idee7ba24a2899d12bf9afee4eedd6b4aaad3c510 Reviewed-on: https://go-review.googlesource.com/63890 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-14 20:00:02 +01:00
addF("math", "Round",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpRound, types.Types[types.TFLOAT64], args[0])
cmd/compile: add s390x intrinsics for Ceil, Floor, Round and Trunc Ceil, Floor and Trunc are pre-existing intrinsics. Round is a new function and has been added as an intrinsic in this CL. All of the functions can be implemented as a single 'LOAD FP INTEGER' instruction, FIDBR, on s390x. name old time/op new time/op delta Ceil 2.34ns ± 0% 0.85ns ± 0% -63.74% (p=0.000 n=5+4) Floor 2.33ns ± 0% 0.85ns ± 1% -63.35% (p=0.008 n=5+5) Round 4.23ns ± 0% 0.85ns ± 0% -79.89% (p=0.000 n=5+4) Trunc 2.35ns ± 0% 0.85ns ± 0% -63.83% (p=0.029 n=4+4) Change-Id: Idee7ba24a2899d12bf9afee4eedd6b4aaad3c510 Reviewed-on: https://go-review.googlesource.com/63890 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-14 20:00:02 +01:00
},
cmd/compile, cmd/internal/obj/ppc64: make math.Round an intrinsic on ppc64x This change implements math.Round as an intrinsic on ppc64x so it can be done using a single instruction. benchmark old ns/op new ns/op delta BenchmarkRound-16 2.60 0.69 -73.46% Change-Id: I9408363e96201abdfc73ced7bcd5f0c29db006a8 Reviewed-on: https://go-review.googlesource.com/109395 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Lynn Boger <laboger@linux.vnet.ibm.com>
2018-03-02 16:47:54 -03:00
sys.ARM64, sys.PPC64, sys.S390X)
cmd/compile: intrinsify math.RoundToEven on s390x The new RoundToEven function can be implemented as a single FIDBR instruction on s390x. name old time/op new time/op delta RoundToEven 5.32ns ± 1% 0.86ns ± 1% -83.86% (p=0.000 n=10+10) Change-Id: Iaf597e57a0d1085961701e3c75ff4f6f6dcebb5f Reviewed-on: https://go-review.googlesource.com/74350 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-30 09:02:44 -04:00
addF("math", "RoundToEven",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpRoundToEven, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsify math.RoundToEven on s390x The new RoundToEven function can be implemented as a single FIDBR instruction on s390x. name old time/op new time/op delta RoundToEven 5.32ns ± 1% 0.86ns ± 1% -83.86% (p=0.000 n=10+10) Change-Id: Iaf597e57a0d1085961701e3c75ff4f6f6dcebb5f Reviewed-on: https://go-review.googlesource.com/74350 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-30 09:02:44 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.S390X, sys.Wasm)
cmd/compile,cmd/internal/obj/ppc64: make math.Abs,math.Copysign instrinsics on ppc64x This adds support for math Abs, Copysign to be instrinsics on ppc64x. New instruction FCPSGN is added to generate fcpsgn. Some new rules are added to improve the int<->float conversions that are generated mainly due to the Float64bits and Float64frombits in the math package. PPC64.rules is also modified as suggested in the review for CL 63290. Improvements: benchmark old ns/op new ns/op delta BenchmarkAbs-16 1.12 0.69 -38.39% BenchmarkCopysign-16 1.30 0.93 -28.46% BenchmarkNextafter32-16 9.34 8.05 -13.81% BenchmarkFrexp-16 8.81 7.60 -13.73% Others that used Copysign also saw smaller improvements. I attempted to make this work using rules since that seems to be preferred, but due to the use of Float64bits and Float64frombits in these functions, several rules had to be added and even then not all cases were matched. Using rules became too complicated and seemed too fragile for these. Updates #21390 Change-Id: Ia265da9a18355e08000818a4fba1a40e9e031995 Reviewed-on: https://go-review.googlesource.com/67130 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-28 17:11:31 -04:00
addF("math", "Abs",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpAbs, types.Types[types.TFLOAT64], args[0])
cmd/compile,cmd/internal/obj/ppc64: make math.Abs,math.Copysign instrinsics on ppc64x This adds support for math Abs, Copysign to be instrinsics on ppc64x. New instruction FCPSGN is added to generate fcpsgn. Some new rules are added to improve the int<->float conversions that are generated mainly due to the Float64bits and Float64frombits in the math package. PPC64.rules is also modified as suggested in the review for CL 63290. Improvements: benchmark old ns/op new ns/op delta BenchmarkAbs-16 1.12 0.69 -38.39% BenchmarkCopysign-16 1.30 0.93 -28.46% BenchmarkNextafter32-16 9.34 8.05 -13.81% BenchmarkFrexp-16 8.81 7.60 -13.73% Others that used Copysign also saw smaller improvements. I attempted to make this work using rules since that seems to be preferred, but due to the use of Float64bits and Float64frombits in these functions, several rules had to be added and even then not all cases were matched. Using rules became too complicated and seemed too fragile for these. Updates #21390 Change-Id: Ia265da9a18355e08000818a4fba1a40e9e031995 Reviewed-on: https://go-review.googlesource.com/67130 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-28 17:11:31 -04:00
},
cmd/compile: optimize ARM's math.Abs This CL optimizes math.Abs to an inline ABSD instruction on ARM. The benchmark results of src/math/ show big improvements. name old time/op new time/op delta Acos-4 181ns ± 0% 182ns ± 0% +0.30% (p=0.000 n=40+40) Acosh-4 202ns ± 0% 202ns ± 0% ~ (all equal) Asin-4 163ns ± 0% 163ns ± 0% ~ (all equal) Asinh-4 242ns ± 0% 242ns ± 0% ~ (all equal) Atan-4 120ns ± 0% 121ns ± 0% +0.83% (p=0.000 n=40+40) Atanh-4 202ns ± 0% 202ns ± 0% ~ (all equal) Atan2-4 173ns ± 0% 173ns ± 0% ~ (all equal) Cbrt-4 1.06µs ± 0% 1.06µs ± 0% +0.09% (p=0.000 n=39+37) Ceil-4 72.9ns ± 0% 72.8ns ± 0% ~ (p=0.237 n=40+40) Copysign-4 13.2ns ± 0% 13.2ns ± 0% ~ (all equal) Cos-4 193ns ± 0% 183ns ± 0% -5.18% (p=0.000 n=40+40) Cosh-4 254ns ± 0% 239ns ± 0% -5.91% (p=0.000 n=40+40) Erf-4 112ns ± 0% 112ns ± 0% ~ (all equal) Erfc-4 117ns ± 0% 117ns ± 0% ~ (all equal) Erfinv-4 127ns ± 0% 127ns ± 1% ~ (p=0.492 n=40+40) Erfcinv-4 128ns ± 0% 128ns ± 0% ~ (all equal) Exp-4 212ns ± 0% 206ns ± 0% -3.05% (p=0.000 n=40+40) ExpGo-4 216ns ± 0% 209ns ± 0% -3.24% (p=0.000 n=40+40) Expm1-4 142ns ± 0% 142ns ± 0% ~ (all equal) Exp2-4 191ns ± 0% 184ns ± 0% -3.45% (p=0.000 n=40+40) Exp2Go-4 194ns ± 0% 187ns ± 0% -3.61% (p=0.000 n=40+40) Abs-4 14.4ns ± 0% 6.3ns ± 0% -56.39% (p=0.000 n=38+39) Dim-4 12.6ns ± 0% 12.6ns ± 0% ~ (all equal) Floor-4 49.6ns ± 0% 49.6ns ± 0% ~ (all equal) Max-4 27.6ns ± 0% 27.6ns ± 0% ~ (all equal) Min-4 27.0ns ± 0% 27.0ns ± 0% ~ (all equal) Mod-4 349ns ± 0% 305ns ± 1% -12.55% (p=0.000 n=33+40) Frexp-4 54.0ns ± 0% 47.1ns ± 0% -12.78% (p=0.000 n=38+38) Gamma-4 242ns ± 0% 234ns ± 0% -3.16% (p=0.000 n=36+40) Hypot-4 84.8ns ± 0% 67.8ns ± 0% -20.05% (p=0.000 n=31+35) HypotGo-4 88.5ns ± 0% 71.6ns ± 0% -19.12% (p=0.000 n=40+38) Ilogb-4 45.8ns ± 0% 38.9ns ± 0% -15.12% (p=0.000 n=40+32) J0-4 821ns ± 0% 802ns ± 0% -2.33% (p=0.000 n=33+40) J1-4 816ns ± 0% 807ns ± 0% -1.05% (p=0.000 n=40+29) Jn-4 1.67µs ± 0% 1.65µs ± 0% -1.45% (p=0.000 n=40+39) Ldexp-4 61.5ns ± 0% 54.6ns ± 0% -11.27% (p=0.000 n=40+32) Lgamma-4 188ns ± 0% 188ns ± 0% ~ (all equal) Log-4 154ns ± 0% 147ns ± 0% -4.78% (p=0.000 n=40+40) Logb-4 50.9ns ± 0% 42.7ns ± 0% -16.11% (p=0.000 n=34+39) Log1p-4 160ns ± 0% 159ns ± 0% ~ (p=0.828 n=40+40) Log10-4 173ns ± 0% 166ns ± 0% -4.05% (p=0.000 n=40+40) Log2-4 65.3ns ± 0% 58.4ns ± 0% -10.57% (p=0.000 n=37+37) Modf-4 36.4ns ± 0% 36.4ns ± 0% ~ (all equal) Nextafter32-4 36.4ns ± 0% 36.4ns ± 0% ~ (all equal) Nextafter64-4 32.7ns ± 0% 32.6ns ± 0% ~ (p=0.375 n=40+40) PowInt-4 300ns ± 0% 277ns ± 0% -7.78% (p=0.000 n=40+40) PowFrac-4 676ns ± 0% 635ns ± 0% -6.00% (p=0.000 n=40+35) Pow10Pos-4 17.6ns ± 0% 17.6ns ± 0% ~ (all equal) Pow10Neg-4 22.0ns ± 0% 22.0ns ± 0% ~ (all equal) Round-4 30.1ns ± 0% 30.1ns ± 0% ~ (all equal) RoundToEven-4 38.9ns ± 0% 38.9ns ± 0% ~ (all equal) Remainder-4 291ns ± 0% 263ns ± 0% -9.62% (p=0.000 n=40+40) Signbit-4 11.3ns ± 0% 11.3ns ± 0% ~ (all equal) Sin-4 185ns ± 0% 185ns ± 0% ~ (all equal) Sincos-4 230ns ± 0% 230ns ± 0% ~ (all equal) Sinh-4 253ns ± 0% 246ns ± 0% -2.77% (p=0.000 n=39+39) SqrtIndirect-4 41.4ns ± 0% 41.4ns ± 0% ~ (all equal) SqrtLatency-4 13.8ns ± 0% 13.8ns ± 0% ~ (all equal) SqrtIndirectLatency-4 37.0ns ± 0% 37.0ns ± 0% ~ (p=0.632 n=40+40) SqrtGoLatency-4 911ns ± 0% 911ns ± 0% +0.08% (p=0.000 n=40+40) SqrtPrime-4 13.2µs ± 0% 13.2µs ± 0% +0.01% (p=0.038 n=38+40) Tan-4 205ns ± 0% 205ns ± 0% ~ (all equal) Tanh-4 264ns ± 0% 247ns ± 0% -6.44% (p=0.000 n=39+32) Trunc-4 45.2ns ± 0% 45.2ns ± 0% ~ (all equal) Y0-4 796ns ± 0% 792ns ± 0% -0.55% (p=0.000 n=35+40) Y1-4 804ns ± 0% 797ns ± 0% -0.82% (p=0.000 n=24+40) Yn-4 1.64µs ± 0% 1.62µs ± 0% -1.27% (p=0.000 n=40+39) Float64bits-4 8.16ns ± 0% 8.16ns ± 0% +0.04% (p=0.000 n=35+40) Float64frombits-4 10.7ns ± 0% 10.7ns ± 0% ~ (all equal) Float32bits-4 7.53ns ± 0% 7.53ns ± 0% ~ (p=0.760 n=40+40) Float32frombits-4 6.91ns ± 0% 6.91ns ± 0% -0.04% (p=0.002 n=32+38) [Geo mean] 111ns 106ns -3.98% Change-Id: I54f4fd7f5160db020b430b556bde59cc0fdb996d Reviewed-on: https://go-review.googlesource.com/c/go/+/188678 Run-TryBot: Ben Shi <powerman1st@163.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-08-02 02:41:59 +00:00
sys.ARM64, sys.ARM, sys.PPC64, sys.Wasm)
cmd/compile,cmd/internal/obj/ppc64: make math.Abs,math.Copysign instrinsics on ppc64x This adds support for math Abs, Copysign to be instrinsics on ppc64x. New instruction FCPSGN is added to generate fcpsgn. Some new rules are added to improve the int<->float conversions that are generated mainly due to the Float64bits and Float64frombits in the math package. PPC64.rules is also modified as suggested in the review for CL 63290. Improvements: benchmark old ns/op new ns/op delta BenchmarkAbs-16 1.12 0.69 -38.39% BenchmarkCopysign-16 1.30 0.93 -28.46% BenchmarkNextafter32-16 9.34 8.05 -13.81% BenchmarkFrexp-16 8.81 7.60 -13.73% Others that used Copysign also saw smaller improvements. I attempted to make this work using rules since that seems to be preferred, but due to the use of Float64bits and Float64frombits in these functions, several rules had to be added and even then not all cases were matched. Using rules became too complicated and seemed too fragile for these. Updates #21390 Change-Id: Ia265da9a18355e08000818a4fba1a40e9e031995 Reviewed-on: https://go-review.googlesource.com/67130 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-28 17:11:31 -04:00
addF("math", "Copysign",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpCopysign, types.Types[types.TFLOAT64], args[0], args[1])
cmd/compile,cmd/internal/obj/ppc64: make math.Abs,math.Copysign instrinsics on ppc64x This adds support for math Abs, Copysign to be instrinsics on ppc64x. New instruction FCPSGN is added to generate fcpsgn. Some new rules are added to improve the int<->float conversions that are generated mainly due to the Float64bits and Float64frombits in the math package. PPC64.rules is also modified as suggested in the review for CL 63290. Improvements: benchmark old ns/op new ns/op delta BenchmarkAbs-16 1.12 0.69 -38.39% BenchmarkCopysign-16 1.30 0.93 -28.46% BenchmarkNextafter32-16 9.34 8.05 -13.81% BenchmarkFrexp-16 8.81 7.60 -13.73% Others that used Copysign also saw smaller improvements. I attempted to make this work using rules since that seems to be preferred, but due to the use of Float64bits and Float64frombits in these functions, several rules had to be added and even then not all cases were matched. Using rules became too complicated and seemed too fragile for these. Updates #21390 Change-Id: Ia265da9a18355e08000818a4fba1a40e9e031995 Reviewed-on: https://go-review.googlesource.com/67130 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-09-28 17:11:31 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.PPC64, sys.Wasm)
math, cmd/compile: rename Fma to FMA This API was added for #25819, where it was discussed as math.FMA. The commit adding it used math.Fma, presumably for consistency with the rest of the unusual names in package math (Sincos, Acosh, Erfcinv, Float32bits, etc). I believe that using an idiomatic Go name is more important here than consistency with these other names, most of which are historical baggage from C's standard library. Early additions like Float32frombits happened before "uppercase for export" (so they were originally like "float32frombits") and they were not properly reconsidered when we uppercased the symbols to export them. That's a mistake we live with. The names of functions we have added since then, and even a few that were legacy, are more properly Go-cased, such as IsNaN, IsInf, and RoundToEven, rather than Isnan, Isinf, and Roundtoeven. And also constants like MaxFloat32. For new API, we should keep using proper Go-cased symbols instead of minimally-upper-cased-C symbols. So math.FMA, not math.Fma. This API has not yet been released, so this change does not break the compatibility promise. This CL also modifies cmd/compile, since the compiler knows the name of the function. I could have stopped at changing the string constants, but it seemed to make more sense to use a consistent casing everywhere. Change-Id: I0f6f3407f41e99bfa8239467345c33945088896e Reviewed-on: https://go-review.googlesource.com/c/go/+/205317 Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-11-04 19:43:45 -05:00
addF("math", "FMA",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue3(ssa.OpFMA, types.Types[types.TFLOAT64], args[0], args[1], args[2])
cmd/compile: introduce generic ssa intrinsic for fused-multiply-add In order to make math.FMA a compiler intrinsic for ISAs like ARM64, PPC64[le], and S390X, a generic 3-argument opcode "Fma" is provided and rewritten as ARM64: (Fma x y z) -> (FMADDD z x y) PPC64: (Fma x y z) -> (FMADD x y z) S390X: (Fma x y z) -> (FMADD z x y) Updates #25819. Change-Id: Ie5bc628311e6feeb28ddf9adaa6e702c8c291efa Reviewed-on: https://go-review.googlesource.com/c/go/+/131959 Run-TryBot: Akhil Indurti <aindurti@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-08-29 20:57:33 -04:00
},
sys.ARM64, sys.PPC64, sys.S390X)
math, cmd/compile: rename Fma to FMA This API was added for #25819, where it was discussed as math.FMA. The commit adding it used math.Fma, presumably for consistency with the rest of the unusual names in package math (Sincos, Acosh, Erfcinv, Float32bits, etc). I believe that using an idiomatic Go name is more important here than consistency with these other names, most of which are historical baggage from C's standard library. Early additions like Float32frombits happened before "uppercase for export" (so they were originally like "float32frombits") and they were not properly reconsidered when we uppercased the symbols to export them. That's a mistake we live with. The names of functions we have added since then, and even a few that were legacy, are more properly Go-cased, such as IsNaN, IsInf, and RoundToEven, rather than Isnan, Isinf, and Roundtoeven. And also constants like MaxFloat32. For new API, we should keep using proper Go-cased symbols instead of minimally-upper-cased-C symbols. So math.FMA, not math.Fma. This API has not yet been released, so this change does not break the compatibility promise. This CL also modifies cmd/compile, since the compiler knows the name of the function. I could have stopped at changing the string constants, but it seemed to make more sense to use a consistent casing everywhere. Change-Id: I0f6f3407f41e99bfa8239467345c33945088896e Reviewed-on: https://go-review.googlesource.com/c/go/+/205317 Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-11-04 19:43:45 -05:00
addF("math", "FMA",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: don't use FMA on plan9 CL 137156 introduces an intrinsic on AMD64 that executes vfmadd231sd when feature detection is successful. However, because floating-point isn't allowed in note handler, the builder disables SSE instructions, and fails when attempting to execute this instruction. This change disables FMA on plan9 to immediately use the software fallback. Fixes #35063. Change-Id: I87d8f0995bd2f15013d203e618938f5079c9eed2 Reviewed-on: https://go-review.googlesource.com/c/go/+/202617 Reviewed-by: Keith Randall <khr@golang.org>
2019-10-22 10:09:55 -04:00
if !s.config.UseFMA {
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TFLOAT64]
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TFLOAT64])
cmd/compile: don't use FMA on plan9 CL 137156 introduces an intrinsic on AMD64 that executes vfmadd231sd when feature detection is successful. However, because floating-point isn't allowed in note handler, the builder disables SSE instructions, and fails when attempting to execute this instruction. This change disables FMA on plan9 to immediately use the software fallback. Fixes #35063. Change-Id: I87d8f0995bd2f15013d203e618938f5079c9eed2 Reviewed-on: https://go-review.googlesource.com/c/go/+/202617 Reviewed-by: Keith Randall <khr@golang.org>
2019-10-22 10:09:55 -04:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.entryNewValue0A(ssa.OpHasCPUFeature, types.Types[types.TBOOL], x86HasFMA)
cmd/compile: add fma intrinsic for amd64 To permit ssa-level optimization, this change introduces an amd64 intrinsic that generates the VFMADD231SD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.X86.HasFMA. A rewrite rule can then translate the generic ssa intrinsic ("Fma") to VFMADD231SD. The benchmark compares the software implementation (old) with the intrinsic (new). name old time/op new time/op delta Fma-4 27.2ns ± 1% 1.0ns ± 9% -96.48% (p=0.008 n=5+5) Updates #25819. Change-Id: I966655e5f96817a5d06dff5942418a3915b09584 Reviewed-on: https://go-review.googlesource.com/c/go/+/137156 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-09-25 03:10:33 -04:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(v)
bTrue := s.f.NewBlock(ssa.BlockPlain)
bFalse := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bTrue)
b.AddEdgeTo(bFalse)
b.Likely = ssa.BranchLikely // >= haswell cpus are common
// We have the intrinsic - use it directly.
s.startBlock(bTrue)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.vars[n] = s.newValue3(ssa.OpFMA, types.Types[types.TFLOAT64], args[0], args[1], args[2])
cmd/compile: add fma intrinsic for amd64 To permit ssa-level optimization, this change introduces an amd64 intrinsic that generates the VFMADD231SD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.X86.HasFMA. A rewrite rule can then translate the generic ssa intrinsic ("Fma") to VFMADD231SD. The benchmark compares the software implementation (old) with the intrinsic (new). name old time/op new time/op delta Fma-4 27.2ns ± 1% 1.0ns ± 9% -96.48% (p=0.008 n=5+5) Updates #25819. Change-Id: I966655e5f96817a5d06dff5942418a3915b09584 Reviewed-on: https://go-review.googlesource.com/c/go/+/137156 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-09-25 03:10:33 -04:00
s.endBlock().AddEdgeTo(bEnd)
// Call the pure Go version.
s.startBlock(bFalse)
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TFLOAT64]
cmd/compile: add fma intrinsic for amd64 To permit ssa-level optimization, this change introduces an amd64 intrinsic that generates the VFMADD231SD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.X86.HasFMA. A rewrite rule can then translate the generic ssa intrinsic ("Fma") to VFMADD231SD. The benchmark compares the software implementation (old) with the intrinsic (new). name old time/op new time/op delta Fma-4 27.2ns ± 1% 1.0ns ± 9% -96.48% (p=0.008 n=5+5) Updates #25819. Change-Id: I966655e5f96817a5d06dff5942418a3915b09584 Reviewed-on: https://go-review.googlesource.com/c/go/+/137156 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-09-25 03:10:33 -04:00
s.endBlock().AddEdgeTo(bEnd)
// Merge results.
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TFLOAT64])
cmd/compile: add fma intrinsic for amd64 To permit ssa-level optimization, this change introduces an amd64 intrinsic that generates the VFMADD231SD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.X86.HasFMA. A rewrite rule can then translate the generic ssa intrinsic ("Fma") to VFMADD231SD. The benchmark compares the software implementation (old) with the intrinsic (new). name old time/op new time/op delta Fma-4 27.2ns ± 1% 1.0ns ± 9% -96.48% (p=0.008 n=5+5) Updates #25819. Change-Id: I966655e5f96817a5d06dff5942418a3915b09584 Reviewed-on: https://go-review.googlesource.com/c/go/+/137156 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-09-25 03:10:33 -04:00
},
sys.AMD64)
math, cmd/compile: rename Fma to FMA This API was added for #25819, where it was discussed as math.FMA. The commit adding it used math.Fma, presumably for consistency with the rest of the unusual names in package math (Sincos, Acosh, Erfcinv, Float32bits, etc). I believe that using an idiomatic Go name is more important here than consistency with these other names, most of which are historical baggage from C's standard library. Early additions like Float32frombits happened before "uppercase for export" (so they were originally like "float32frombits") and they were not properly reconsidered when we uppercased the symbols to export them. That's a mistake we live with. The names of functions we have added since then, and even a few that were legacy, are more properly Go-cased, such as IsNaN, IsInf, and RoundToEven, rather than Isnan, Isinf, and Roundtoeven. And also constants like MaxFloat32. For new API, we should keep using proper Go-cased symbols instead of minimally-upper-cased-C symbols. So math.FMA, not math.Fma. This API has not yet been released, so this change does not break the compatibility promise. This CL also modifies cmd/compile, since the compiler knows the name of the function. I could have stopped at changing the string constants, but it seemed to make more sense to use a consistent casing everywhere. Change-Id: I0f6f3407f41e99bfa8239467345c33945088896e Reviewed-on: https://go-review.googlesource.com/c/go/+/205317 Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-11-04 19:43:45 -05:00
addF("math", "FMA",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: don't use FMA on plan9 CL 137156 introduces an intrinsic on AMD64 that executes vfmadd231sd when feature detection is successful. However, because floating-point isn't allowed in note handler, the builder disables SSE instructions, and fails when attempting to execute this instruction. This change disables FMA on plan9 to immediately use the software fallback. Fixes #35063. Change-Id: I87d8f0995bd2f15013d203e618938f5079c9eed2 Reviewed-on: https://go-review.googlesource.com/c/go/+/202617 Reviewed-by: Keith Randall <khr@golang.org>
2019-10-22 10:09:55 -04:00
if !s.config.UseFMA {
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TFLOAT64]
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TFLOAT64])
cmd/compile: don't use FMA on plan9 CL 137156 introduces an intrinsic on AMD64 that executes vfmadd231sd when feature detection is successful. However, because floating-point isn't allowed in note handler, the builder disables SSE instructions, and fails when attempting to execute this instruction. This change disables FMA on plan9 to immediately use the software fallback. Fixes #35063. Change-Id: I87d8f0995bd2f15013d203e618938f5079c9eed2 Reviewed-on: https://go-review.googlesource.com/c/go/+/202617 Reviewed-by: Keith Randall <khr@golang.org>
2019-10-22 10:09:55 -04:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
addr := s.entryNewValue1A(ssa.OpAddr, types.Types[types.TBOOL].PtrTo(), armHasVFPv4, s.sb)
v := s.load(types.Types[types.TBOOL], addr)
cmd/compile: add fma intrinsic for arm This change introduces an arm intrinsic that generates the FMULAD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.ARM.HasVFPv4. A rewrite rule translates the generic intrinsic to FMULAD. Updates #25819. Change-Id: I8459e5dd1cdbdca35f88a78dbeb7d387f1e20efa Reviewed-on: https://go-review.googlesource.com/c/go/+/142117 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-15 03:14:57 -04:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(v)
bTrue := s.f.NewBlock(ssa.BlockPlain)
bFalse := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bTrue)
b.AddEdgeTo(bFalse)
b.Likely = ssa.BranchLikely
// We have the intrinsic - use it directly.
s.startBlock(bTrue)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.vars[n] = s.newValue3(ssa.OpFMA, types.Types[types.TFLOAT64], args[0], args[1], args[2])
cmd/compile: add fma intrinsic for arm This change introduces an arm intrinsic that generates the FMULAD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.ARM.HasVFPv4. A rewrite rule translates the generic intrinsic to FMULAD. Updates #25819. Change-Id: I8459e5dd1cdbdca35f88a78dbeb7d387f1e20efa Reviewed-on: https://go-review.googlesource.com/c/go/+/142117 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-15 03:14:57 -04:00
s.endBlock().AddEdgeTo(bEnd)
// Call the pure Go version.
s.startBlock(bFalse)
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TFLOAT64]
cmd/compile: add fma intrinsic for arm This change introduces an arm intrinsic that generates the FMULAD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.ARM.HasVFPv4. A rewrite rule translates the generic intrinsic to FMULAD. Updates #25819. Change-Id: I8459e5dd1cdbdca35f88a78dbeb7d387f1e20efa Reviewed-on: https://go-review.googlesource.com/c/go/+/142117 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-15 03:14:57 -04:00
s.endBlock().AddEdgeTo(bEnd)
// Merge results.
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TFLOAT64])
cmd/compile: add fma intrinsic for arm This change introduces an arm intrinsic that generates the FMULAD instruction for the fused-multiply-add operation on systems that support it. System support is detected via cpu.ARM.HasVFPv4. A rewrite rule translates the generic intrinsic to FMULAD. Updates #25819. Change-Id: I8459e5dd1cdbdca35f88a78dbeb7d387f1e20efa Reviewed-on: https://go-review.googlesource.com/c/go/+/142117 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-15 03:14:57 -04:00
},
sys.ARM)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
makeRoundAMD64 := func(op ssa.Op) func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
return func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.entryNewValue0A(ssa.OpHasCPUFeature, types.Types[types.TBOOL], x86HasSSE41)
cmd/compile: intrinsify math.{Trunc/Ceil/Floor} on amd64 This significantly speed-ups Trunc. Ceil/Floor are using the same instruction, so do them too. name old time/op new time/op delta Floor-6 3.33ns ± 1% 3.22ns ± 0% -3.39% (p=0.000 n=10+10) Ceil-6 3.33ns ± 1% 3.22ns ± 0% -3.16% (p=0.000 n=10+7) Trunc-6 4.83ns ± 0% 3.22ns ± 0% -33.36% (p=0.000 n=6+8) Change-Id: If848790e458eedfe38a6a0407bb4f589c68ac254 Reviewed-on: https://go-review.googlesource.com/68630 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-05 15:45:46 -05:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(v)
bTrue := s.f.NewBlock(ssa.BlockPlain)
bFalse := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bTrue)
b.AddEdgeTo(bFalse)
b.Likely = ssa.BranchLikely // most machines have sse4.1 nowadays
// We have the intrinsic - use it directly.
s.startBlock(bTrue)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.vars[n] = s.newValue1(op, types.Types[types.TFLOAT64], args[0])
cmd/compile: intrinsify math.{Trunc/Ceil/Floor} on amd64 This significantly speed-ups Trunc. Ceil/Floor are using the same instruction, so do them too. name old time/op new time/op delta Floor-6 3.33ns ± 1% 3.22ns ± 0% -3.39% (p=0.000 n=10+10) Ceil-6 3.33ns ± 1% 3.22ns ± 0% -3.16% (p=0.000 n=10+7) Trunc-6 4.83ns ± 0% 3.22ns ± 0% -33.36% (p=0.000 n=6+8) Change-Id: If848790e458eedfe38a6a0407bb4f589c68ac254 Reviewed-on: https://go-review.googlesource.com/68630 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-05 15:45:46 -05:00
s.endBlock().AddEdgeTo(bEnd)
// Call the pure Go version.
s.startBlock(bFalse)
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TFLOAT64]
cmd/compile: intrinsify math.{Trunc/Ceil/Floor} on amd64 This significantly speed-ups Trunc. Ceil/Floor are using the same instruction, so do them too. name old time/op new time/op delta Floor-6 3.33ns ± 1% 3.22ns ± 0% -3.39% (p=0.000 n=10+10) Ceil-6 3.33ns ± 1% 3.22ns ± 0% -3.16% (p=0.000 n=10+7) Trunc-6 4.83ns ± 0% 3.22ns ± 0% -33.36% (p=0.000 n=6+8) Change-Id: If848790e458eedfe38a6a0407bb4f589c68ac254 Reviewed-on: https://go-review.googlesource.com/68630 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-05 15:45:46 -05:00
s.endBlock().AddEdgeTo(bEnd)
// Merge results.
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TFLOAT64])
cmd/compile: intrinsify math.{Trunc/Ceil/Floor} on amd64 This significantly speed-ups Trunc. Ceil/Floor are using the same instruction, so do them too. name old time/op new time/op delta Floor-6 3.33ns ± 1% 3.22ns ± 0% -3.39% (p=0.000 n=10+10) Ceil-6 3.33ns ± 1% 3.22ns ± 0% -3.16% (p=0.000 n=10+7) Trunc-6 4.83ns ± 0% 3.22ns ± 0% -33.36% (p=0.000 n=6+8) Change-Id: If848790e458eedfe38a6a0407bb4f589c68ac254 Reviewed-on: https://go-review.googlesource.com/68630 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-05 15:45:46 -05:00
}
}
cmd/compile: intrinsify math.RoundToEven on amd64 We already do this for floor/ceil, but RoundToEven was added later. Intrinsify it also. name old time/op new time/op delta RoundToEven-8 3.00ns ± 1% 0.68ns ± 2% -77.34% (p=0.000 n=10+10) Change-Id: Ib158cbceb436c6725b2d9353a526c5c4be19bcad Reviewed-on: https://go-review.googlesource.com/74852 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-31 16:49:27 -05:00
addF("math", "RoundToEven",
makeRoundAMD64(ssa.OpRoundToEven),
sys.AMD64)
cmd/compile: intrinsify math.{Trunc/Ceil/Floor} on amd64 This significantly speed-ups Trunc. Ceil/Floor are using the same instruction, so do them too. name old time/op new time/op delta Floor-6 3.33ns ± 1% 3.22ns ± 0% -3.39% (p=0.000 n=10+10) Ceil-6 3.33ns ± 1% 3.22ns ± 0% -3.16% (p=0.000 n=10+7) Trunc-6 4.83ns ± 0% 3.22ns ± 0% -33.36% (p=0.000 n=6+8) Change-Id: If848790e458eedfe38a6a0407bb4f589c68ac254 Reviewed-on: https://go-review.googlesource.com/68630 Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-10-05 15:45:46 -05:00
addF("math", "Floor",
makeRoundAMD64(ssa.OpFloor),
sys.AMD64)
addF("math", "Ceil",
makeRoundAMD64(ssa.OpCeil),
sys.AMD64)
addF("math", "Trunc",
makeRoundAMD64(ssa.OpTrunc),
sys.AMD64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
/******** math/bits ********/
addF("math/bits", "TrailingZeros64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz64, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("math/bits", "TrailingZeros32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz32, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("math/bits", "TrailingZeros16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt16to32, types.Types[types.TUINT32], args[0])
c := s.constInt32(types.Types[types.TUINT32], 1<<16)
y := s.newValue2(ssa.OpOr32, types.Types[types.TUINT32], x, c)
return s.newValue1(ssa.OpCtz32, types.Types[types.TINT], y)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: eliminate unnecessary type conversions in TrailingZeros(16|8) for arm This follows CL 156999 which did the same for arm64. name old time/op new time/op delta TrailingZeros-4 7.30ns ± 1% 7.30ns ± 0% ~ (p=0.413 n=9+9) TrailingZeros8-4 8.32ns ± 0% 7.17ns ± 0% -13.77% (p=0.000 n=10+9) TrailingZeros16-4 8.30ns ± 0% 7.18ns ± 0% -13.50% (p=0.000 n=9+10) TrailingZeros32-4 6.46ns ± 1% 6.47ns ± 1% ~ (p=0.325 n=10+10) TrailingZeros64-4 16.3ns ± 0% 16.2ns ± 0% -0.61% (p=0.000 n=7+10) Change-Id: I7e9e1abf7e30d811aa474d272b2824ec7cbbaa98 Reviewed-on: https://go-review.googlesource.com/c/go/+/167797 Run-TryBot: Tobias Klauser <tobias.klauser@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-15 08:49:38 +01:00
sys.MIPS)
cmd/compile: optimize TrailingZeros(8|16) on amd64 Introduce Ctz8 and Ctz16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. name old time/op new time/op delta TrailingZeros8-8 1.33ns ± 6% 0.84ns ± 3% -36.90% (p=0.000 n=20+20) TrailingZeros16-8 1.26ns ± 5% 0.84ns ± 5% -33.50% (p=0.000 n=20+18) Code: func f8(x uint8) { z = bits.TrailingZeros8(x) } func f16(x uint16) { z = bits.TrailingZeros16(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) BTSQ $8, AX 0x000d 00013 (x.go:7) BSFQ AX, AX 0x0011 00017 (x.go:7) MOVL $64, CX 0x0016 00022 (x.go:7) CMOVQEQ CX, AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET "".f16 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BTSQ $16, AX 0x000d 00013 (x.go:8) BSFQ AX, AX 0x0011 00017 (x.go:8) MOVL $64, CX 0x0016 00022 (x.go:8) CMOVQEQ CX, AX 0x001a 00026 (x.go:8) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:8) RET After: "".f8 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) BTSL $8, AX 0x0009 00009 (x.go:7) BSFL AX, AX 0x000c 00012 (x.go:7) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:7) RET "".f16 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) BTSL $16, AX 0x0009 00009 (x.go:8) BSFL AX, AX 0x000c 00012 (x.go:8) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:8) RET Change-Id: I0551e357348de2b724737d569afd6ac9f5c3aa11 Reviewed-on: https://go-review.googlesource.com/108940 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:46:41 -07:00
addF("math/bits", "TrailingZeros16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz16, types.Types[types.TINT], args[0])
cmd/compile: optimize TrailingZeros(8|16) on amd64 Introduce Ctz8 and Ctz16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. name old time/op new time/op delta TrailingZeros8-8 1.33ns ± 6% 0.84ns ± 3% -36.90% (p=0.000 n=20+20) TrailingZeros16-8 1.26ns ± 5% 0.84ns ± 5% -33.50% (p=0.000 n=20+18) Code: func f8(x uint8) { z = bits.TrailingZeros8(x) } func f16(x uint16) { z = bits.TrailingZeros16(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) BTSQ $8, AX 0x000d 00013 (x.go:7) BSFQ AX, AX 0x0011 00017 (x.go:7) MOVL $64, CX 0x0016 00022 (x.go:7) CMOVQEQ CX, AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET "".f16 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BTSQ $16, AX 0x000d 00013 (x.go:8) BSFQ AX, AX 0x0011 00017 (x.go:8) MOVL $64, CX 0x0016 00022 (x.go:8) CMOVQEQ CX, AX 0x001a 00026 (x.go:8) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:8) RET After: "".f8 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) BTSL $8, AX 0x0009 00009 (x.go:7) BSFL AX, AX 0x000c 00012 (x.go:7) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:7) RET "".f16 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) BTSL $16, AX 0x0009 00009 (x.go:8) BSFL AX, AX 0x000c 00012 (x.go:8) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:8) RET Change-Id: I0551e357348de2b724737d569afd6ac9f5c3aa11 Reviewed-on: https://go-review.googlesource.com/108940 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:46:41 -07:00
},
cmd/compile: optimize 386's math.bits.TrailingZeros16 This CL reverts CL 192097 and fixes the issue in CL 189277. Change-Id: Icd271262e1f5019a8e01c91f91c12c1261eeb02b Reviewed-on: https://go-review.googlesource.com/c/go/+/192519 Run-TryBot: Ben Shi <powerman1st@163.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-30 06:24:58 +00:00
sys.AMD64, sys.I386, sys.ARM, sys.ARM64, sys.Wasm)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("math/bits", "TrailingZeros16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt16to64, types.Types[types.TUINT64], args[0])
c := s.constInt64(types.Types[types.TUINT64], 1<<16)
y := s.newValue2(ssa.OpOr64, types.Types[types.TUINT64], x, c)
return s.newValue1(ssa.OpCtz64, types.Types[types.TINT], y)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: eliminate unnecessary type conversions in TrailingZeros(16|8) for arm64 This CL eliminates unnecessary type conversion operations: OpZeroExt16to64 and OpZeroExt8to64. If the input argrument is a nonzero value, then ORconst operation can also be eliminated. Benchmarks: name old time/op new time/op delta TrailingZeros-8 2.75ns ± 0% 2.75ns ± 0% ~ (all equal) TrailingZeros8-8 3.49ns ± 1% 2.93ns ± 0% -16.00% (p=0.000 n=10+10) TrailingZeros16-8 3.49ns ± 1% 2.93ns ± 0% -16.05% (p=0.000 n=9+10) TrailingZeros32-8 2.67ns ± 1% 2.68ns ± 1% ~ (p=0.468 n=10+10) TrailingZeros64-8 2.67ns ± 1% 2.65ns ± 0% -0.62% (p=0.022 n=10+9) code: func f16(x uint) { z = bits.TrailingZeros16(uint16(x)) } Before: "".f16 STEXT size=48 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f16(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0000 00000 (test.go:7) FUNCDATA ZR, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $3, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) PCDATA $2, ZR 0x0000 00000 (test.go:7) PCDATA ZR, ZR 0x0000 00000 (test.go:7) MOVD "".x(FP), R0 0x0004 00004 (test.go:7) MOVHU R0, R0 0x0008 00008 (test.go:7) ORR $65536, R0, R0 0x000c 00012 (test.go:7) RBIT R0, R0 0x0010 00016 (test.go:7) CLZ R0, R0 0x0014 00020 (test.go:7) MOVD R0, "".z(SB) 0x0020 00032 (test.go:7) RET (R30) This line of code is unnecessary: 0x0004 00004 (test.go:7) MOVHU R0, R0 After: "".f16 STEXT size=32 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f16(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0000 00000 (test.go:7) FUNCDATA ZR, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $3, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) PCDATA $2, ZR 0x0000 00000 (test.go:7) PCDATA ZR, ZR 0x0000 00000 (test.go:7) MOVD "".x(FP), R0 0x0004 00004 (test.go:7) ORR $65536, R0, R0 0x0008 00008 (test.go:7) RBITW R0, R0 0x000c 00012 (test.go:7) CLZW R0, R0 0x0010 00016 (test.go:7) MOVD R0, "".z(SB) 0x001c 00028 (test.go:7) RET (R30) The situation of TrailingZeros8 is similar to TrailingZeros16. Change-Id: I473bdca06be8460a0be87abbae6fe640017e4c9d Reviewed-on: https://go-review.googlesource.com/c/go/+/156999 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-01-03 09:25:06 +00:00
sys.S390X, sys.PPC64)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("math/bits", "TrailingZeros8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt8to32, types.Types[types.TUINT32], args[0])
c := s.constInt32(types.Types[types.TUINT32], 1<<8)
y := s.newValue2(ssa.OpOr32, types.Types[types.TUINT32], x, c)
return s.newValue1(ssa.OpCtz32, types.Types[types.TINT], y)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: eliminate unnecessary type conversions in TrailingZeros(16|8) for arm This follows CL 156999 which did the same for arm64. name old time/op new time/op delta TrailingZeros-4 7.30ns ± 1% 7.30ns ± 0% ~ (p=0.413 n=9+9) TrailingZeros8-4 8.32ns ± 0% 7.17ns ± 0% -13.77% (p=0.000 n=10+9) TrailingZeros16-4 8.30ns ± 0% 7.18ns ± 0% -13.50% (p=0.000 n=9+10) TrailingZeros32-4 6.46ns ± 1% 6.47ns ± 1% ~ (p=0.325 n=10+10) TrailingZeros64-4 16.3ns ± 0% 16.2ns ± 0% -0.61% (p=0.000 n=7+10) Change-Id: I7e9e1abf7e30d811aa474d272b2824ec7cbbaa98 Reviewed-on: https://go-review.googlesource.com/c/go/+/167797 Run-TryBot: Tobias Klauser <tobias.klauser@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-15 08:49:38 +01:00
sys.MIPS)
cmd/compile: optimize TrailingZeros(8|16) on amd64 Introduce Ctz8 and Ctz16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. name old time/op new time/op delta TrailingZeros8-8 1.33ns ± 6% 0.84ns ± 3% -36.90% (p=0.000 n=20+20) TrailingZeros16-8 1.26ns ± 5% 0.84ns ± 5% -33.50% (p=0.000 n=20+18) Code: func f8(x uint8) { z = bits.TrailingZeros8(x) } func f16(x uint16) { z = bits.TrailingZeros16(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) BTSQ $8, AX 0x000d 00013 (x.go:7) BSFQ AX, AX 0x0011 00017 (x.go:7) MOVL $64, CX 0x0016 00022 (x.go:7) CMOVQEQ CX, AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET "".f16 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BTSQ $16, AX 0x000d 00013 (x.go:8) BSFQ AX, AX 0x0011 00017 (x.go:8) MOVL $64, CX 0x0016 00022 (x.go:8) CMOVQEQ CX, AX 0x001a 00026 (x.go:8) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:8) RET After: "".f8 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) BTSL $8, AX 0x0009 00009 (x.go:7) BSFL AX, AX 0x000c 00012 (x.go:7) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:7) RET "".f16 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) BTSL $16, AX 0x0009 00009 (x.go:8) BSFL AX, AX 0x000c 00012 (x.go:8) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:8) RET Change-Id: I0551e357348de2b724737d569afd6ac9f5c3aa11 Reviewed-on: https://go-review.googlesource.com/108940 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:46:41 -07:00
addF("math/bits", "TrailingZeros8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpCtz8, types.Types[types.TINT], args[0])
cmd/compile: optimize TrailingZeros(8|16) on amd64 Introduce Ctz8 and Ctz16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. name old time/op new time/op delta TrailingZeros8-8 1.33ns ± 6% 0.84ns ± 3% -36.90% (p=0.000 n=20+20) TrailingZeros16-8 1.26ns ± 5% 0.84ns ± 5% -33.50% (p=0.000 n=20+18) Code: func f8(x uint8) { z = bits.TrailingZeros8(x) } func f16(x uint16) { z = bits.TrailingZeros16(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) BTSQ $8, AX 0x000d 00013 (x.go:7) BSFQ AX, AX 0x0011 00017 (x.go:7) MOVL $64, CX 0x0016 00022 (x.go:7) CMOVQEQ CX, AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET "".f16 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BTSQ $16, AX 0x000d 00013 (x.go:8) BSFQ AX, AX 0x0011 00017 (x.go:8) MOVL $64, CX 0x0016 00022 (x.go:8) CMOVQEQ CX, AX 0x001a 00026 (x.go:8) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:8) RET After: "".f8 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) BTSL $8, AX 0x0009 00009 (x.go:7) BSFL AX, AX 0x000c 00012 (x.go:7) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:7) RET "".f16 STEXT nosplit size=20 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) BTSL $16, AX 0x0009 00009 (x.go:8) BSFL AX, AX 0x000c 00012 (x.go:8) MOVQ AX, "".z(SB) 0x0013 00019 (x.go:8) RET Change-Id: I0551e357348de2b724737d569afd6ac9f5c3aa11 Reviewed-on: https://go-review.googlesource.com/108940 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:46:41 -07:00
},
cmd/compile: eliminate unnecessary type conversions in TrailingZeros(16|8) for arm This follows CL 156999 which did the same for arm64. name old time/op new time/op delta TrailingZeros-4 7.30ns ± 1% 7.30ns ± 0% ~ (p=0.413 n=9+9) TrailingZeros8-4 8.32ns ± 0% 7.17ns ± 0% -13.77% (p=0.000 n=10+9) TrailingZeros16-4 8.30ns ± 0% 7.18ns ± 0% -13.50% (p=0.000 n=9+10) TrailingZeros32-4 6.46ns ± 1% 6.47ns ± 1% ~ (p=0.325 n=10+10) TrailingZeros64-4 16.3ns ± 0% 16.2ns ± 0% -0.61% (p=0.000 n=7+10) Change-Id: I7e9e1abf7e30d811aa474d272b2824ec7cbbaa98 Reviewed-on: https://go-review.googlesource.com/c/go/+/167797 Run-TryBot: Tobias Klauser <tobias.klauser@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-15 08:49:38 +01:00
sys.AMD64, sys.ARM, sys.ARM64, sys.Wasm)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
addF("math/bits", "TrailingZeros8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt8to64, types.Types[types.TUINT64], args[0])
c := s.constInt64(types.Types[types.TUINT64], 1<<8)
y := s.newValue2(ssa.OpOr64, types.Types[types.TUINT64], x, c)
return s.newValue1(ssa.OpCtz64, types.Types[types.TINT], y)
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile: eliminate unnecessary type conversions in TrailingZeros(16|8) for arm64 This CL eliminates unnecessary type conversion operations: OpZeroExt16to64 and OpZeroExt8to64. If the input argrument is a nonzero value, then ORconst operation can also be eliminated. Benchmarks: name old time/op new time/op delta TrailingZeros-8 2.75ns ± 0% 2.75ns ± 0% ~ (all equal) TrailingZeros8-8 3.49ns ± 1% 2.93ns ± 0% -16.00% (p=0.000 n=10+10) TrailingZeros16-8 3.49ns ± 1% 2.93ns ± 0% -16.05% (p=0.000 n=9+10) TrailingZeros32-8 2.67ns ± 1% 2.68ns ± 1% ~ (p=0.468 n=10+10) TrailingZeros64-8 2.67ns ± 1% 2.65ns ± 0% -0.62% (p=0.022 n=10+9) code: func f16(x uint) { z = bits.TrailingZeros16(uint16(x)) } Before: "".f16 STEXT size=48 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f16(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0000 00000 (test.go:7) FUNCDATA ZR, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $3, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) PCDATA $2, ZR 0x0000 00000 (test.go:7) PCDATA ZR, ZR 0x0000 00000 (test.go:7) MOVD "".x(FP), R0 0x0004 00004 (test.go:7) MOVHU R0, R0 0x0008 00008 (test.go:7) ORR $65536, R0, R0 0x000c 00012 (test.go:7) RBIT R0, R0 0x0010 00016 (test.go:7) CLZ R0, R0 0x0014 00020 (test.go:7) MOVD R0, "".z(SB) 0x0020 00032 (test.go:7) RET (R30) This line of code is unnecessary: 0x0004 00004 (test.go:7) MOVHU R0, R0 After: "".f16 STEXT size=32 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f16(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0000 00000 (test.go:7) FUNCDATA ZR, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) FUNCDATA $3, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (test.go:7) PCDATA $2, ZR 0x0000 00000 (test.go:7) PCDATA ZR, ZR 0x0000 00000 (test.go:7) MOVD "".x(FP), R0 0x0004 00004 (test.go:7) ORR $65536, R0, R0 0x0008 00008 (test.go:7) RBITW R0, R0 0x000c 00012 (test.go:7) CLZW R0, R0 0x0010 00016 (test.go:7) MOVD R0, "".z(SB) 0x001c 00028 (test.go:7) RET (R30) The situation of TrailingZeros8 is similar to TrailingZeros16. Change-Id: I473bdca06be8460a0be87abbae6fe640017e4c9d Reviewed-on: https://go-review.googlesource.com/c/go/+/156999 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-01-03 09:25:06 +00:00
sys.S390X)
cmd/compile: intrinsify math/bits.ReverseBytes Update #18616 Change-Id: I0c2d643cbbeb131b4c9b12194697afa4af48e1d2 Reviewed-on: https://go-review.googlesource.com/38166 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-15 21:28:29 -07:00
alias("math/bits", "ReverseBytes64", "runtime/internal/sys", "Bswap64", all...)
alias("math/bits", "ReverseBytes32", "runtime/internal/sys", "Bswap32", all...)
// ReverseBytes inlines correctly, no need to intrinsify it.
// ReverseBytes16 lowers to a rotate, no need for anything special here.
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
addF("math/bits", "Len64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen64, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: optimize LeadingZeros(16|32) on amd64 Introduce Len8 and Len16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. Also use and optimize the Len32 lowering, along the same lines. Leave Len8 unused for the moment; a subsequent CL will enable it. For 16 and 32 bits, this leads to a speed-up. name old time/op new time/op delta LeadingZeros16-8 1.42ns ± 5% 1.23ns ± 5% -13.42% (p=0.000 n=20+20) LeadingZeros32-8 1.25ns ± 5% 1.03ns ± 5% -17.63% (p=0.000 n=20+16) Code: func f16(x uint16) { z = bits.LeadingZeros16(x) } func f32(x uint32) { z = bits.LeadingZeros32(x) } Before: "".f16 STEXT nosplit size=38 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BSRQ AX, AX 0x000c 00012 (x.go:8) MOVQ $-1, CX 0x0013 00019 (x.go:8) CMOVQEQ CX, AX 0x0017 00023 (x.go:8) ADDQ $-15, AX 0x001b 00027 (x.go:8) NEGQ AX 0x001e 00030 (x.go:8) MOVQ AX, "".z(SB) 0x0025 00037 (x.go:8) RET "".f32 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) BSRQ AX, AX 0x0008 00008 (x.go:9) MOVQ $-1, CX 0x000f 00015 (x.go:9) CMOVQEQ CX, AX 0x0013 00019 (x.go:9) ADDQ $-31, AX 0x0017 00023 (x.go:9) NEGQ AX 0x001a 00026 (x.go:9) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:9) RET After: "".f16 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:8) BSRL AX, AX 0x000f 00015 (x.go:8) ADDQ $-16, AX 0x0013 00019 (x.go:8) NEGQ AX 0x0016 00022 (x.go:8) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:8) RET "".f32 STEXT nosplit size=28 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) LEAQ 1(AX)(AX*1), AX 0x0009 00009 (x.go:9) BSRQ AX, AX 0x000d 00013 (x.go:9) ADDQ $-32, AX 0x0011 00017 (x.go:9) NEGQ AX 0x0014 00020 (x.go:9) MOVQ AX, "".z(SB) 0x001b 00027 (x.go:9) RET Change-Id: I6c93c173752a7bfdeab8be30777ae05a736e1f4b Reviewed-on: https://go-review.googlesource.com/108941 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:54:45 -07:00
addF("math/bits", "Len32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen32, types.Types[types.TINT], args[0])
cmd/compile: optimize LeadingZeros(16|32) on amd64 Introduce Len8 and Len16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. Also use and optimize the Len32 lowering, along the same lines. Leave Len8 unused for the moment; a subsequent CL will enable it. For 16 and 32 bits, this leads to a speed-up. name old time/op new time/op delta LeadingZeros16-8 1.42ns ± 5% 1.23ns ± 5% -13.42% (p=0.000 n=20+20) LeadingZeros32-8 1.25ns ± 5% 1.03ns ± 5% -17.63% (p=0.000 n=20+16) Code: func f16(x uint16) { z = bits.LeadingZeros16(x) } func f32(x uint32) { z = bits.LeadingZeros32(x) } Before: "".f16 STEXT nosplit size=38 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BSRQ AX, AX 0x000c 00012 (x.go:8) MOVQ $-1, CX 0x0013 00019 (x.go:8) CMOVQEQ CX, AX 0x0017 00023 (x.go:8) ADDQ $-15, AX 0x001b 00027 (x.go:8) NEGQ AX 0x001e 00030 (x.go:8) MOVQ AX, "".z(SB) 0x0025 00037 (x.go:8) RET "".f32 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) BSRQ AX, AX 0x0008 00008 (x.go:9) MOVQ $-1, CX 0x000f 00015 (x.go:9) CMOVQEQ CX, AX 0x0013 00019 (x.go:9) ADDQ $-31, AX 0x0017 00023 (x.go:9) NEGQ AX 0x001a 00026 (x.go:9) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:9) RET After: "".f16 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:8) BSRL AX, AX 0x000f 00015 (x.go:8) ADDQ $-16, AX 0x0013 00019 (x.go:8) NEGQ AX 0x0016 00022 (x.go:8) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:8) RET "".f32 STEXT nosplit size=28 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) LEAQ 1(AX)(AX*1), AX 0x0009 00009 (x.go:9) BSRQ AX, AX 0x000d 00013 (x.go:9) ADDQ $-32, AX 0x0011 00017 (x.go:9) NEGQ AX 0x0014 00020 (x.go:9) MOVQ AX, "".z(SB) 0x001b 00027 (x.go:9) RET Change-Id: I6c93c173752a7bfdeab8be30777ae05a736e1f4b Reviewed-on: https://go-review.googlesource.com/108941 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:54:45 -07:00
},
cmd/compile: optimize math/bits Len32 intrinsic on arm64 Arm64 has a 32-bit CLZ instruction CLZW, which can be used for intrinsic Len32. Function LeadingZeros32 calls Len32, with this change, the assembly code of LeadingZeros32 becomes more concise. Go code: func f32(x uint32) { z = bits.LeadingZeros32(x) } Before: "".f32 STEXT size=32 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f32(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0004 00004 (test.go:7) MOVWU "".x(FP), R0 0x0008 00008 ($GOROOT/src/math/bits/bits.go:30) CLZ R0, R0 0x000c 00012 ($GOROOT/src/math/bits/bits.go:30) SUB $32, R0, R0 0x0010 00016 (test.go:7) MOVD R0, "".z(SB) 0x001c 00028 (test.go:7) RET (R30) After: "".f32 STEXT size=32 args=0x8 locals=0x0 leaf 0x0000 00000 (test.go:7) TEXT "".f32(SB), LEAF|NOFRAME|ABIInternal, $0-8 0x0004 00004 (test.go:7) MOVWU "".x(FP), R0 0x0008 00008 ($GOROOT/src/math/bits/bits.go:30) CLZW R0, R0 0x000c 00012 (test.go:7) MOVD R0, "".z(SB) 0x0018 00024 (test.go:7) RET (R30) Benchmarks: name old time/op new time/op delta LeadingZeros-8 2.53ns ± 0% 2.55ns ± 0% +0.67% (p=0.000 n=10+10) LeadingZeros8-8 3.56ns ± 0% 3.56ns ± 0% ~ (all equal) LeadingZeros16-8 3.55ns ± 0% 3.56ns ± 0% ~ (p=0.465 n=10+10) LeadingZeros32-8 3.55ns ± 0% 2.96ns ± 0% -16.71% (p=0.000 n=10+7) LeadingZeros64-8 2.53ns ± 0% 2.54ns ± 0% ~ (p=0.059 n=8+10) Change-Id: Ie5666bb82909e341060e02ffd4e86c0e5d67e90a Reviewed-on: https://go-review.googlesource.com/c/157000 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-01-02 09:14:26 +00:00
sys.AMD64, sys.ARM64)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
addF("math/bits", "Len32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen32, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt32to64, types.Types[types.TUINT64], args[0])
return s.newValue1(ssa.OpBitLen64, types.Types[types.TINT], x)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
addF("math/bits", "Len16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt16to32, types.Types[types.TUINT32], args[0])
return s.newValue1(ssa.OpBitLen32, types.Types[types.TINT], x)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt16to64, types.Types[types.TUINT64], args[0])
return s.newValue1(ssa.OpBitLen64, types.Types[types.TINT], x)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: optimize LeadingZeros(16|32) on amd64 Introduce Len8 and Len16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. Also use and optimize the Len32 lowering, along the same lines. Leave Len8 unused for the moment; a subsequent CL will enable it. For 16 and 32 bits, this leads to a speed-up. name old time/op new time/op delta LeadingZeros16-8 1.42ns ± 5% 1.23ns ± 5% -13.42% (p=0.000 n=20+20) LeadingZeros32-8 1.25ns ± 5% 1.03ns ± 5% -17.63% (p=0.000 n=20+16) Code: func f16(x uint16) { z = bits.LeadingZeros16(x) } func f32(x uint32) { z = bits.LeadingZeros32(x) } Before: "".f16 STEXT nosplit size=38 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BSRQ AX, AX 0x000c 00012 (x.go:8) MOVQ $-1, CX 0x0013 00019 (x.go:8) CMOVQEQ CX, AX 0x0017 00023 (x.go:8) ADDQ $-15, AX 0x001b 00027 (x.go:8) NEGQ AX 0x001e 00030 (x.go:8) MOVQ AX, "".z(SB) 0x0025 00037 (x.go:8) RET "".f32 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) BSRQ AX, AX 0x0008 00008 (x.go:9) MOVQ $-1, CX 0x000f 00015 (x.go:9) CMOVQEQ CX, AX 0x0013 00019 (x.go:9) ADDQ $-31, AX 0x0017 00023 (x.go:9) NEGQ AX 0x001a 00026 (x.go:9) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:9) RET After: "".f16 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:8) BSRL AX, AX 0x000f 00015 (x.go:8) ADDQ $-16, AX 0x0013 00019 (x.go:8) NEGQ AX 0x0016 00022 (x.go:8) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:8) RET "".f32 STEXT nosplit size=28 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) LEAQ 1(AX)(AX*1), AX 0x0009 00009 (x.go:9) BSRQ AX, AX 0x000d 00013 (x.go:9) ADDQ $-32, AX 0x0011 00017 (x.go:9) NEGQ AX 0x0014 00020 (x.go:9) MOVQ AX, "".z(SB) 0x001b 00027 (x.go:9) RET Change-Id: I6c93c173752a7bfdeab8be30777ae05a736e1f4b Reviewed-on: https://go-review.googlesource.com/108941 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:54:45 -07:00
addF("math/bits", "Len16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen16, types.Types[types.TINT], args[0])
cmd/compile: optimize LeadingZeros(16|32) on amd64 Introduce Len8 and Len16 ops and provide optimized lowerings for them. amd64 only for this CL, although it wouldn't surprise me if other architectures also admit of optimized lowerings. Also use and optimize the Len32 lowering, along the same lines. Leave Len8 unused for the moment; a subsequent CL will enable it. For 16 and 32 bits, this leads to a speed-up. name old time/op new time/op delta LeadingZeros16-8 1.42ns ± 5% 1.23ns ± 5% -13.42% (p=0.000 n=20+20) LeadingZeros32-8 1.25ns ± 5% 1.03ns ± 5% -17.63% (p=0.000 n=20+16) Code: func f16(x uint16) { z = bits.LeadingZeros16(x) } func f32(x uint32) { z = bits.LeadingZeros32(x) } Before: "".f16 STEXT nosplit size=38 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) BSRQ AX, AX 0x000c 00012 (x.go:8) MOVQ $-1, CX 0x0013 00019 (x.go:8) CMOVQEQ CX, AX 0x0017 00023 (x.go:8) ADDQ $-15, AX 0x001b 00027 (x.go:8) NEGQ AX 0x001e 00030 (x.go:8) MOVQ AX, "".z(SB) 0x0025 00037 (x.go:8) RET "".f32 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) BSRQ AX, AX 0x0008 00008 (x.go:9) MOVQ $-1, CX 0x000f 00015 (x.go:9) CMOVQEQ CX, AX 0x0013 00019 (x.go:9) ADDQ $-31, AX 0x0017 00023 (x.go:9) NEGQ AX 0x001a 00026 (x.go:9) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:9) RET After: "".f16 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:8) TEXT "".f16(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:8) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:8) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:8) MOVWLZX "".x+8(SP), AX 0x0005 00005 (x.go:8) MOVWLZX AX, AX 0x0008 00008 (x.go:8) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:8) BSRL AX, AX 0x000f 00015 (x.go:8) ADDQ $-16, AX 0x0013 00019 (x.go:8) NEGQ AX 0x0016 00022 (x.go:8) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:8) RET "".f32 STEXT nosplit size=28 args=0x8 locals=0x0 0x0000 00000 (x.go:9) TEXT "".f32(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:9) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:9) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:9) MOVL "".x+8(SP), AX 0x0004 00004 (x.go:9) LEAQ 1(AX)(AX*1), AX 0x0009 00009 (x.go:9) BSRQ AX, AX 0x000d 00013 (x.go:9) ADDQ $-32, AX 0x0011 00017 (x.go:9) NEGQ AX 0x0014 00020 (x.go:9) MOVQ AX, "".z(SB) 0x001b 00027 (x.go:9) RET Change-Id: I6c93c173752a7bfdeab8be30777ae05a736e1f4b Reviewed-on: https://go-review.googlesource.com/108941 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Giovanni Bajo <rasky@develer.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 14:54:45 -07:00
},
sys.AMD64)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
addF("math/bits", "Len8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt8to32, types.Types[types.TUINT32], args[0])
return s.newValue1(ssa.OpBitLen32, types.Types[types.TINT], x)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
x := s.newValue1(ssa.OpZeroExt8to64, types.Types[types.TUINT64], args[0])
return s.newValue1(ssa.OpBitLen64, types.Types[types.TINT], x)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: use intrinsic for LeadingZeros8 on amd64 The previous change sped up the pure computation form of LeadingZeros8. This places it somewhat close to the table lookup form. Depending on something that varies from toolchain to toolchain (alignment, perhaps?), the slowdown from ditching the table lookup is either 20% or 5%. This benchmark is the best case scenario for the table lookup: It is in the L1 cache already. I think we're close enough that we can switch to the computational version, and trust that the memory effects and binary size savings will be worth it. Code: func f8(x uint8) { z = bits.LeadingZeros8(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) LEAQ math/bits.len8tab(SB), CX 0x000f 00015 (x.go:7) MOVBLZX (CX)(AX*1), AX 0x0013 00019 (x.go:7) ADDQ $-8, AX 0x0017 00023 (x.go:7) NEGQ AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET After: "".f8 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:7) BSRL AX, AX 0x000f 00015 (x.go:7) ADDQ $-8, AX 0x0013 00019 (x.go:7) NEGQ AX 0x0016 00022 (x.go:7) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:7) RET Change-Id: Icc7db50a7820fb9a3da8a816d6b6940d7f8e193e Reviewed-on: https://go-review.googlesource.com/108942 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 15:38:50 -07:00
addF("math/bits", "Len8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen8, types.Types[types.TINT], args[0])
cmd/compile: use intrinsic for LeadingZeros8 on amd64 The previous change sped up the pure computation form of LeadingZeros8. This places it somewhat close to the table lookup form. Depending on something that varies from toolchain to toolchain (alignment, perhaps?), the slowdown from ditching the table lookup is either 20% or 5%. This benchmark is the best case scenario for the table lookup: It is in the L1 cache already. I think we're close enough that we can switch to the computational version, and trust that the memory effects and binary size savings will be worth it. Code: func f8(x uint8) { z = bits.LeadingZeros8(x) } Before: "".f8 STEXT nosplit size=34 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) LEAQ math/bits.len8tab(SB), CX 0x000f 00015 (x.go:7) MOVBLZX (CX)(AX*1), AX 0x0013 00019 (x.go:7) ADDQ $-8, AX 0x0017 00023 (x.go:7) NEGQ AX 0x001a 00026 (x.go:7) MOVQ AX, "".z(SB) 0x0021 00033 (x.go:7) RET After: "".f8 STEXT nosplit size=30 args=0x8 locals=0x0 0x0000 00000 (x.go:7) TEXT "".f8(SB), NOSPLIT, $0-8 0x0000 00000 (x.go:7) FUNCDATA $0, gclocals·2a5305abe05176240e61b8620e19a815(SB) 0x0000 00000 (x.go:7) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 0x0000 00000 (x.go:7) MOVBLZX "".x+8(SP), AX 0x0005 00005 (x.go:7) MOVBLZX AL, AX 0x0008 00008 (x.go:7) LEAL 1(AX)(AX*1), AX 0x000c 00012 (x.go:7) BSRL AX, AX 0x000f 00015 (x.go:7) ADDQ $-8, AX 0x0013 00019 (x.go:7) NEGQ AX 0x0016 00022 (x.go:7) MOVQ AX, "".z(SB) 0x001d 00029 (x.go:7) RET Change-Id: Icc7db50a7820fb9a3da8a816d6b6940d7f8e193e Reviewed-on: https://go-review.googlesource.com/108942 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-04-23 15:38:50 -07:00
},
sys.AMD64)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
addF("math/bits", "Len",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen32, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitLen64, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.AMD64, sys.ARM64, sys.ARM, sys.S390X, sys.MIPS, sys.PPC64, sys.Wasm)
cmd/compile: intrinsics for math/bits.{Len,LeadingZeros} name old time/op new time/op delta LeadingZeros-4 2.00ns ± 0% 1.34ns ± 1% -33.02% (p=0.000 n=8+10) LeadingZeros16-4 1.62ns ± 0% 1.57ns ± 0% -3.09% (p=0.001 n=8+9) LeadingZeros32-4 2.14ns ± 0% 1.48ns ± 0% -30.84% (p=0.002 n=8+10) LeadingZeros64-4 2.06ns ± 1% 1.33ns ± 0% -35.08% (p=0.000 n=8+8) 8-bit args is a special case - the Go code is really fast because it is just a single table lookup. So I've disabled that for now. Intrinsics were actually slower: LeadingZeros8-4 1.22ns ± 3% 1.58ns ± 1% +29.56% (p=0.000 n=10+10) Update #18616 Change-Id: Ia9c289b9ba59c583ea64060470315fd637e814cf Reviewed-on: https://go-review.googlesource.com/38311 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 14:08:31 -07:00
// LeadingZeros is handled because it trivially calls Len.
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
addF("math/bits", "Reverse64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev64, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
},
sys.ARM64)
addF("math/bits", "Reverse32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev32, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
},
sys.ARM64)
addF("math/bits", "Reverse16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev16, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
},
sys.ARM64)
addF("math/bits", "Reverse8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev8, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
},
sys.ARM64)
addF("math/bits", "Reverse",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev32, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpBitRev64, types.Types[types.TINT], args[0])
cmd/compile: intrinsic for math/bits.Reverse on ARM64 I don't know that it exists for any other architectures. Update #18616 Change-Id: Idfe5dee251764d32787915889ec0be4bebc5be24 Reviewed-on: https://go-review.googlesource.com/38323 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 22:34:38 -07:00
},
sys.ARM64)
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
addF("math/bits", "RotateLeft8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpRotateLeft8, types.Types[types.TUINT8], args[0], args[1])
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
},
sys.AMD64)
addF("math/bits", "RotateLeft16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpRotateLeft16, types.Types[types.TUINT16], args[0], args[1])
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
},
sys.AMD64)
addF("math/bits", "RotateLeft32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpRotateLeft32, types.Types[types.TUINT32], args[0], args[1])
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
},
cmd/compile: intrinsify RotateLeft32 on wasm wasm has 32-bit versions of all integer operations. This change lowers RotateLeft32 to i32.rotl on wasm and intrinsifies the math/bits call. Benchmarking on amd64 under node.js this is ~25% faster. node v10.15.3/amd64 name old time/op new time/op delta RotateLeft 8.37ns ± 1% 8.28ns ± 0% -1.05% (p=0.029 n=4+4) RotateLeft8 11.9ns ± 1% 11.8ns ± 0% ~ (p=0.167 n=5+5) RotateLeft16 11.8ns ± 0% 11.8ns ± 0% ~ (all equal) RotateLeft32 11.9ns ± 1% 8.7ns ± 0% -26.32% (p=0.008 n=5+5) RotateLeft64 8.31ns ± 1% 8.43ns ± 2% ~ (p=0.063 n=5+5) Updates #31265 Change-Id: I5b8e155978faeea536c4f6427ac9564d2f096a46 Reviewed-on: https://go-review.googlesource.com/c/go/+/182359 Run-TryBot: Brian Kessler <brian.m.kessler@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Richard Musiol <neelance@gmail.com>
2019-05-17 15:16:38 -06:00
sys.AMD64, sys.ARM, sys.ARM64, sys.S390X, sys.PPC64, sys.Wasm)
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
addF("math/bits", "RotateLeft64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpRotateLeft64, types.Types[types.TUINT64], args[0], args[1])
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.AMD64, sys.ARM64, sys.S390X, sys.PPC64, sys.Wasm)
cmd/compile: make math/bits.RotateLeft* an intrinsic on amd64 Previously, pattern matching was good enough to achieve good performance for the RotateLeft* functions, but the inlining cost for them was much too high. Make RotateLeft* intrinsic on amd64 as a stop-gap for now to reduce inlining costs. This should be done (or at least looked at) for other architectures as well. Updates golang/go#17566 Change-Id: I6a106ff00b6c4e3f490650af3e083ed2be00c819 Reviewed-on: https://go-review.googlesource.com/132435 Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-08-30 15:47:04 -06:00
alias("math/bits", "RotateLeft", "math/bits", "RotateLeft64", p8...)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
makeOnesCountAMD64 := func(op64 ssa.Op, op32 ssa.Op) func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
return func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
v := s.entryNewValue0A(ssa.OpHasCPUFeature, types.Types[types.TBOOL], x86HasPOPCNT)
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(v)
bTrue := s.f.NewBlock(ssa.BlockPlain)
bFalse := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bTrue)
b.AddEdgeTo(bFalse)
b.Likely = ssa.BranchLikely // most machines have popcnt nowadays
// We have the intrinsic - use it directly.
s.startBlock(bTrue)
op := op64
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if s.config.PtrSize == 4 {
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
op = op32
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.vars[n] = s.newValue1(op, types.Types[types.TINT], args[0])
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
s.endBlock().AddEdgeTo(bEnd)
// Call the pure Go version.
s.startBlock(bFalse)
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
s.vars[n] = s.callResult(n, callNormal) // types.Types[TINT]
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
s.endBlock().AddEdgeTo(bEnd)
// Merge results.
s.startBlock(bEnd)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.variable(n, types.Types[types.TINT])
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
}
}
addF("math/bits", "OnesCount64",
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
makeOnesCountAMD64(ssa.OpPopCount64, ssa.OpPopCount64),
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
sys.AMD64)
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
addF("math/bits", "OnesCount64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpPopCount64, types.Types[types.TINT], args[0])
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.PPC64, sys.ARM64, sys.S390X, sys.Wasm)
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
addF("math/bits", "OnesCount32",
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
makeOnesCountAMD64(ssa.OpPopCount32, ssa.OpPopCount32),
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
sys.AMD64)
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
addF("math/bits", "OnesCount32",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpPopCount32, types.Types[types.TINT], args[0])
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.PPC64, sys.ARM64, sys.S390X, sys.Wasm)
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
addF("math/bits", "OnesCount16",
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
makeOnesCountAMD64(ssa.OpPopCount16, ssa.OpPopCount16),
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
sys.AMD64)
cmd/compile: arm64 intrinsics for math/bits.OnesCount This adds math/bits intrinsics for OnesCount on arm64. name old time/op new time/op delta OnesCount 3.81ns ± 0% 1.60ns ± 0% -57.96% (p=0.000 n=7+8) OnesCount8 1.60ns ± 0% 1.60ns ± 0% ~ (all equal) OnesCount16 2.41ns ± 0% 1.60ns ± 0% -33.61% (p=0.000 n=8+8) OnesCount32 4.17ns ± 0% 1.60ns ± 0% -61.58% (p=0.000 n=8+8) OnesCount64 3.80ns ± 0% 1.60ns ± 0% -57.84% (p=0.000 n=8+8) Update #18616 Conflicts: src/cmd/compile/internal/gc/asm_test.go Change-Id: I63ac2f63acafdb1f60656ab8a56be0b326eec5cb Reviewed-on: https://go-review.googlesource.com/90835 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-01-30 12:16:52 -05:00
addF("math/bits", "OnesCount16",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpPopCount16, types.Types[types.TINT], args[0])
cmd/compile: arm64 intrinsics for math/bits.OnesCount This adds math/bits intrinsics for OnesCount on arm64. name old time/op new time/op delta OnesCount 3.81ns ± 0% 1.60ns ± 0% -57.96% (p=0.000 n=7+8) OnesCount8 1.60ns ± 0% 1.60ns ± 0% ~ (all equal) OnesCount16 2.41ns ± 0% 1.60ns ± 0% -33.61% (p=0.000 n=8+8) OnesCount32 4.17ns ± 0% 1.60ns ± 0% -61.58% (p=0.000 n=8+8) OnesCount64 3.80ns ± 0% 1.60ns ± 0% -57.84% (p=0.000 n=8+8) Update #18616 Conflicts: src/cmd/compile/internal/gc/asm_test.go Change-Id: I63ac2f63acafdb1f60656ab8a56be0b326eec5cb Reviewed-on: https://go-review.googlesource.com/90835 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-01-30 12:16:52 -05:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.ARM64, sys.S390X, sys.PPC64, sys.Wasm)
cmd/compile: implement OnesCount{8,16,32,64} intrinsics on s390x This CL implements the math/bits.OnesCount{8,16,32,64} functions as intrinsics on s390x using the 'population count' (popcnt) instruction. This instruction was released as the 'population-count' facility which uses the same facility bit (45) as the 'distinct-operands' facility which is a pre-requisite for Go on s390x. We can therefore use it without a feature check. The s390x popcnt instruction treats a 64 bit register as a vector of 8 bytes, summing the number of ones in each byte individually. It then writes the results to the corresponding bytes in the output register. Therefore to implement OnesCount{16,32,64} we need to sum the individual byte counts using some extra instructions. To do this efficiently I've added some additional pseudo operations to the s390x SSA backend. Unlike other architectures the new instruction sequence is faster for OnesCount8, so that is implemented using the intrinsic. name old time/op new time/op delta OnesCount 3.21ns ± 1% 1.35ns ± 0% -58.00% (p=0.000 n=20+20) OnesCount8 0.91ns ± 1% 0.81ns ± 0% -11.43% (p=0.000 n=20+20) OnesCount16 1.51ns ± 3% 1.21ns ± 0% -19.71% (p=0.000 n=20+17) OnesCount32 1.91ns ± 0% 1.12ns ± 1% -41.60% (p=0.000 n=19+20) OnesCount64 3.18ns ± 4% 1.35ns ± 0% -57.52% (p=0.000 n=20+20) Change-Id: Id54f0bd28b6db9a887ad12c0d72fcc168ef9c4e0 Reviewed-on: https://go-review.googlesource.com/114675 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-05-25 17:54:58 +01:00
addF("math/bits", "OnesCount8",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(ssa.OpPopCount8, types.Types[types.TINT], args[0])
cmd/compile: implement OnesCount{8,16,32,64} intrinsics on s390x This CL implements the math/bits.OnesCount{8,16,32,64} functions as intrinsics on s390x using the 'population count' (popcnt) instruction. This instruction was released as the 'population-count' facility which uses the same facility bit (45) as the 'distinct-operands' facility which is a pre-requisite for Go on s390x. We can therefore use it without a feature check. The s390x popcnt instruction treats a 64 bit register as a vector of 8 bytes, summing the number of ones in each byte individually. It then writes the results to the corresponding bytes in the output register. Therefore to implement OnesCount{16,32,64} we need to sum the individual byte counts using some extra instructions. To do this efficiently I've added some additional pseudo operations to the s390x SSA backend. Unlike other architectures the new instruction sequence is faster for OnesCount8, so that is implemented using the intrinsic. name old time/op new time/op delta OnesCount 3.21ns ± 1% 1.35ns ± 0% -58.00% (p=0.000 n=20+20) OnesCount8 0.91ns ± 1% 0.81ns ± 0% -11.43% (p=0.000 n=20+20) OnesCount16 1.51ns ± 3% 1.21ns ± 0% -19.71% (p=0.000 n=20+17) OnesCount32 1.91ns ± 0% 1.12ns ± 1% -41.60% (p=0.000 n=19+20) OnesCount64 3.18ns ± 4% 1.35ns ± 0% -57.52% (p=0.000 n=20+20) Change-Id: Id54f0bd28b6db9a887ad12c0d72fcc168ef9c4e0 Reviewed-on: https://go-review.googlesource.com/114675 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-05-25 17:54:58 +01:00
},
math, math/bits: add intrinsics for wasm This commit adds compiler intrinsics for the packages math and math/bits on the wasm architecture for better performance. benchmark old ns/op new ns/op delta BenchmarkCeil 8.31 3.21 -61.37% BenchmarkCopysign 5.24 3.88 -25.95% BenchmarkAbs 5.42 3.34 -38.38% BenchmarkFloor 8.29 3.18 -61.64% BenchmarkRoundToEven 9.76 3.26 -66.60% BenchmarkSqrtLatency 8.13 4.88 -39.98% BenchmarkSqrtPrime 5246 3535 -32.62% BenchmarkTrunc 8.29 3.15 -62.00% BenchmarkLeadingZeros 13.0 4.23 -67.46% BenchmarkLeadingZeros8 4.65 4.42 -4.95% BenchmarkLeadingZeros16 7.60 4.38 -42.37% BenchmarkLeadingZeros32 10.7 4.48 -58.13% BenchmarkLeadingZeros64 12.9 4.31 -66.59% BenchmarkTrailingZeros 6.52 4.04 -38.04% BenchmarkTrailingZeros8 4.57 4.14 -9.41% BenchmarkTrailingZeros16 6.69 4.16 -37.82% BenchmarkTrailingZeros32 6.97 4.23 -39.31% BenchmarkTrailingZeros64 6.59 4.00 -39.30% BenchmarkOnesCount 7.93 3.30 -58.39% BenchmarkOnesCount8 3.56 3.19 -10.39% BenchmarkOnesCount16 4.85 3.19 -34.23% BenchmarkOnesCount32 7.27 3.19 -56.12% BenchmarkOnesCount64 8.08 3.28 -59.41% BenchmarkRotateLeft 4.88 3.80 -22.13% BenchmarkRotateLeft64 5.03 3.63 -27.83% Change-Id: Ic1e0c2984878be8defb6eb7eb6ee63765c793222 Reviewed-on: https://go-review.googlesource.com/c/go/+/165177 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-03-05 01:56:17 +01:00
sys.S390X, sys.PPC64, sys.Wasm)
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
addF("math/bits", "OnesCount",
cmd/compile: ppc64x intrinsics for math/bits This adds math/bits intrinsics for OnesCount, Len, TrailingZeros on ppc64x. benchmark old ns/op new ns/op delta BenchmarkLeadingZeros-16 4.26 1.71 -59.86% BenchmarkLeadingZeros16-16 3.04 1.83 -39.80% BenchmarkLeadingZeros32-16 3.31 1.82 -45.02% BenchmarkLeadingZeros64-16 3.69 1.71 -53.66% BenchmarkTrailingZeros-16 2.55 1.62 -36.47% BenchmarkTrailingZeros32-16 2.55 1.77 -30.59% BenchmarkTrailingZeros64-16 2.78 1.62 -41.73% BenchmarkOnesCount-16 3.19 0.93 -70.85% BenchmarkOnesCount32-16 2.55 1.18 -53.73% BenchmarkOnesCount64-16 3.22 0.93 -71.12% Update #18616 I also made a change to bits_test.go because when debugging some failures the output was not quite providing the right argument information. Change-Id: Ia58d31d1777cf4582a4505f85b11a1202ca07d3e Reviewed-on: https://go-review.googlesource.com/41630 Run-TryBot: Lynn Boger <laboger@linux.vnet.ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-24 15:11:39 -04:00
makeOnesCountAMD64(ssa.OpPopCount64, ssa.OpPopCount32),
cmd/compile: intrinsics for math/bits.OnesCount Popcount instructions on amd64 are not guaranteed to be present, so we must guard their call. Rewrite rules can't generate control flow at the moment, so the intrinsifier needs to generate that code. name old time/op new time/op delta OnesCount-8 2.47ns ± 5% 1.04ns ± 2% -57.70% (p=0.000 n=10+10) OnesCount16-8 1.05ns ± 1% 0.78ns ± 0% -25.56% (p=0.000 n=9+8) OnesCount32-8 1.63ns ± 5% 1.04ns ± 2% -35.96% (p=0.000 n=10+10) OnesCount64-8 2.45ns ± 0% 1.04ns ± 1% -57.55% (p=0.000 n=6+10) Update #18616 Change-Id: I4aff2cc9aa93787898d7b22055fe272a7cf95673 Reviewed-on: https://go-review.googlesource.com/38320 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-16 21:33:03 -07:00
sys.AMD64)
cmd/compile: intrinsify math/bits.Mul Add SSA rules to intrinsify Mul/Mul64 (AMD64 and ARM64). SSA rules for other functions and architectures are left as a future optimization. Benchmark results on AMD64/ARM64 before and after SSA implementation are below. amd64 name old time/op new time/op delta Add-4 1.78ns ± 0% 1.85ns ±12% ~ (p=0.397 n=4+5) Add32-4 1.71ns ± 1% 1.70ns ± 0% ~ (p=0.683 n=5+5) Add64-4 1.80ns ± 2% 1.77ns ± 0% -1.22% (p=0.048 n=5+5) Sub-4 1.78ns ± 0% 1.78ns ± 0% ~ (all equal) Sub32-4 1.78ns ± 1% 1.78ns ± 0% ~ (p=1.000 n=5+5) Sub64-4 1.78ns ± 1% 1.78ns ± 0% ~ (p=0.968 n=5+4) Mul-4 11.5ns ± 1% 1.8ns ± 2% -84.39% (p=0.008 n=5+5) Mul32-4 1.39ns ± 0% 1.38ns ± 3% ~ (p=0.175 n=5+5) Mul64-4 6.85ns ± 1% 1.78ns ± 1% -73.97% (p=0.008 n=5+5) Div-4 57.1ns ± 1% 56.7ns ± 0% ~ (p=0.087 n=5+5) Div32-4 18.0ns ± 0% 18.0ns ± 0% ~ (all equal) Div64-4 56.4ns ±10% 53.6ns ± 1% ~ (p=0.071 n=5+5) arm64 name old time/op new time/op delta Add-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Add32-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Add64-96 5.52ns ± 0% 5.51ns ± 0% ~ (p=0.444 n=5+5) Sub-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Sub32-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Sub64-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Mul-96 34.6ns ± 0% 5.0ns ± 0% -85.52% (p=0.008 n=5+5) Mul32-96 4.51ns ± 0% 4.51ns ± 0% ~ (all equal) Mul64-96 21.1ns ± 0% 5.0ns ± 0% -76.26% (p=0.008 n=5+5) Div-96 64.7ns ± 0% 64.7ns ± 0% ~ (all equal) Div32-96 17.0ns ± 0% 17.0ns ± 0% ~ (all equal) Div64-96 53.1ns ± 0% 53.1ns ± 0% ~ (all equal) Updates #24813 Change-Id: I9bda6d2102f65cae3d436a2087b47ed8bafeb068 Reviewed-on: https://go-review.googlesource.com/129415 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-08-14 16:41:22 -06:00
addF("math/bits", "Mul64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpMul64uhilo, types.NewTuple(types.Types[types.TUINT64], types.Types[types.TUINT64]), args[0], args[1])
cmd/compile: intrinsify math/bits.Mul Add SSA rules to intrinsify Mul/Mul64 (AMD64 and ARM64). SSA rules for other functions and architectures are left as a future optimization. Benchmark results on AMD64/ARM64 before and after SSA implementation are below. amd64 name old time/op new time/op delta Add-4 1.78ns ± 0% 1.85ns ±12% ~ (p=0.397 n=4+5) Add32-4 1.71ns ± 1% 1.70ns ± 0% ~ (p=0.683 n=5+5) Add64-4 1.80ns ± 2% 1.77ns ± 0% -1.22% (p=0.048 n=5+5) Sub-4 1.78ns ± 0% 1.78ns ± 0% ~ (all equal) Sub32-4 1.78ns ± 1% 1.78ns ± 0% ~ (p=1.000 n=5+5) Sub64-4 1.78ns ± 1% 1.78ns ± 0% ~ (p=0.968 n=5+4) Mul-4 11.5ns ± 1% 1.8ns ± 2% -84.39% (p=0.008 n=5+5) Mul32-4 1.39ns ± 0% 1.38ns ± 3% ~ (p=0.175 n=5+5) Mul64-4 6.85ns ± 1% 1.78ns ± 1% -73.97% (p=0.008 n=5+5) Div-4 57.1ns ± 1% 56.7ns ± 0% ~ (p=0.087 n=5+5) Div32-4 18.0ns ± 0% 18.0ns ± 0% ~ (all equal) Div64-4 56.4ns ±10% 53.6ns ± 1% ~ (p=0.071 n=5+5) arm64 name old time/op new time/op delta Add-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Add32-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Add64-96 5.52ns ± 0% 5.51ns ± 0% ~ (p=0.444 n=5+5) Sub-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Sub32-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Sub64-96 5.51ns ± 0% 5.51ns ± 0% ~ (all equal) Mul-96 34.6ns ± 0% 5.0ns ± 0% -85.52% (p=0.008 n=5+5) Mul32-96 4.51ns ± 0% 4.51ns ± 0% ~ (all equal) Mul64-96 21.1ns ± 0% 5.0ns ± 0% -76.26% (p=0.008 n=5+5) Div-96 64.7ns ± 0% 64.7ns ± 0% ~ (all equal) Div32-96 17.0ns ± 0% 17.0ns ± 0% ~ (all equal) Div64-96 53.1ns ± 0% 53.1ns ± 0% ~ (all equal) Updates #24813 Change-Id: I9bda6d2102f65cae3d436a2087b47ed8bafeb068 Reviewed-on: https://go-review.googlesource.com/129415 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-08-14 16:41:22 -06:00
},
cmd/compile: add math/bits.Mul64 intrinsic on mips64x Benchmark: name old time/op new time/op delta Mul 36.0ns ± 1% 2.8ns ± 0% -92.31% (p=0.000 n=10+10) Mul32 4.37ns ± 0% 4.37ns ± 0% ~ (p=0.429 n=6+10) Mul64 36.4ns ± 0% 2.8ns ± 0% -92.37% (p=0.000 n=10+9) Change-Id: Ic4f4e5958adbf24999abcee721d0180b5413fca7 Reviewed-on: https://go-review.googlesource.com/c/go/+/200582 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-10-13 18:51:49 +08:00
sys.AMD64, sys.ARM64, sys.PPC64, sys.S390X, sys.MIPS64)
alias("math/bits", "Mul", "math/bits", "Mul64", sys.ArchAMD64, sys.ArchARM64, sys.ArchPPC64, sys.ArchS390X, sys.ArchMIPS64, sys.ArchMIPS64LE)
cmd/compile: intrinsify math/bits.Add on amd64 name old time/op new time/op delta Add-8 1.11ns ± 0% 1.18ns ± 0% +6.31% (p=0.029 n=4+4) Add32-8 1.02ns ± 0% 1.02ns ± 1% ~ (p=0.333 n=4+5) Add64-8 1.11ns ± 1% 1.17ns ± 0% +5.79% (p=0.008 n=5+5) Add64multiple-8 4.35ns ± 1% 0.86ns ± 0% -80.22% (p=0.000 n=5+4) The individual ops are a bit slower (but still very fast). Using the ops in carry chains is very fast. Update #28273 Change-Id: Id975f76df2b930abf0e412911d327b6c5b1befe5 Reviewed-on: https://go-review.googlesource.com/c/144257 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-23 14:05:38 -07:00
addF("math/bits", "Add64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue3(ssa.OpAdd64carry, types.NewTuple(types.Types[types.TUINT64], types.Types[types.TUINT64]), args[0], args[1], args[2])
cmd/compile: intrinsify math/bits.Add on amd64 name old time/op new time/op delta Add-8 1.11ns ± 0% 1.18ns ± 0% +6.31% (p=0.029 n=4+4) Add32-8 1.02ns ± 0% 1.02ns ± 1% ~ (p=0.333 n=4+5) Add64-8 1.11ns ± 1% 1.17ns ± 0% +5.79% (p=0.008 n=5+5) Add64multiple-8 4.35ns ± 1% 0.86ns ± 0% -80.22% (p=0.000 n=5+4) The individual ops are a bit slower (but still very fast). Using the ops in carry chains is very fast. Update #28273 Change-Id: Id975f76df2b930abf0e412911d327b6c5b1befe5 Reviewed-on: https://go-review.googlesource.com/c/144257 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-23 14:05:38 -07:00
},
cmd/compile: add math/bits.{Add,Sub}64 intrinsics on s390x This CL adds intrinsics for the 64-bit addition and subtraction functions in math/bits. These intrinsics use the condition code to propagate the carry or borrow bit. To make the carry chains more efficient I've removed the 'clobberFlags' property from most of the load and store operations. Originally these ops did clobber flags when using offsets that didn't fit in a signed 20-bit integer, however that is no longer true. As with other platforms the intrinsics are faster when executed in a chain rather than a loop because currently we need to spill and restore the carry bit between each loop iteration. We may be able to reduce the need to do this on s390x (e.g. by using compare-and-branch instructions that do not clobber flags) in the future. name old time/op new time/op delta Add64 1.21ns ± 2% 2.03ns ± 2% +67.18% (p=0.000 n=7+10) Add64multiple 2.98ns ± 3% 1.03ns ± 0% -65.39% (p=0.000 n=10+9) Sub64 1.23ns ± 4% 2.03ns ± 1% +64.85% (p=0.000 n=10+10) Sub64multiple 3.73ns ± 4% 1.04ns ± 1% -72.28% (p=0.000 n=10+8) Change-Id: I913bbd5e19e6b95bef52f5bc4f14d6fe40119083 Reviewed-on: https://go-review.googlesource.com/c/go/+/174303 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-04-30 17:46:23 +01:00
sys.AMD64, sys.ARM64, sys.PPC64, sys.S390X)
alias("math/bits", "Add", "math/bits", "Add64", sys.ArchAMD64, sys.ArchARM64, sys.ArchPPC64, sys.ArchS390X)
cmd/compile: intrinsify math/bits.Sub on amd64 name old time/op new time/op delta Sub-8 1.12ns ± 1% 1.17ns ± 1% +5.20% (p=0.008 n=5+5) Sub32-8 1.11ns ± 0% 1.11ns ± 0% ~ (all samples are equal) Sub64-8 1.12ns ± 0% 1.18ns ± 1% +5.00% (p=0.016 n=4+5) Sub64multiple-8 4.10ns ± 1% 0.86ns ± 1% -78.93% (p=0.008 n=5+5) Fixes #28273 Change-Id: Ibcb6f2fd32d987c3bcbae4f4cd9d335a3de98548 Reviewed-on: https://go-review.googlesource.com/c/144258 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-23 14:38:22 -07:00
addF("math/bits", "Sub64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue3(ssa.OpSub64borrow, types.NewTuple(types.Types[types.TUINT64], types.Types[types.TUINT64]), args[0], args[1], args[2])
cmd/compile: intrinsify math/bits.Sub on amd64 name old time/op new time/op delta Sub-8 1.12ns ± 1% 1.17ns ± 1% +5.20% (p=0.008 n=5+5) Sub32-8 1.11ns ± 0% 1.11ns ± 0% ~ (all samples are equal) Sub64-8 1.12ns ± 0% 1.18ns ± 1% +5.00% (p=0.016 n=4+5) Sub64multiple-8 4.10ns ± 1% 0.86ns ± 1% -78.93% (p=0.008 n=5+5) Fixes #28273 Change-Id: Ibcb6f2fd32d987c3bcbae4f4cd9d335a3de98548 Reviewed-on: https://go-review.googlesource.com/c/144258 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-23 14:38:22 -07:00
},
cmd/compile: add math/bits.{Add,Sub}64 intrinsics on s390x This CL adds intrinsics for the 64-bit addition and subtraction functions in math/bits. These intrinsics use the condition code to propagate the carry or borrow bit. To make the carry chains more efficient I've removed the 'clobberFlags' property from most of the load and store operations. Originally these ops did clobber flags when using offsets that didn't fit in a signed 20-bit integer, however that is no longer true. As with other platforms the intrinsics are faster when executed in a chain rather than a loop because currently we need to spill and restore the carry bit between each loop iteration. We may be able to reduce the need to do this on s390x (e.g. by using compare-and-branch instructions that do not clobber flags) in the future. name old time/op new time/op delta Add64 1.21ns ± 2% 2.03ns ± 2% +67.18% (p=0.000 n=7+10) Add64multiple 2.98ns ± 3% 1.03ns ± 0% -65.39% (p=0.000 n=10+9) Sub64 1.23ns ± 4% 2.03ns ± 1% +64.85% (p=0.000 n=10+10) Sub64multiple 3.73ns ± 4% 1.04ns ± 1% -72.28% (p=0.000 n=10+8) Change-Id: I913bbd5e19e6b95bef52f5bc4f14d6fe40119083 Reviewed-on: https://go-review.googlesource.com/c/go/+/174303 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-04-30 17:46:23 +01:00
sys.AMD64, sys.ARM64, sys.S390X)
alias("math/bits", "Sub", "math/bits", "Sub64", sys.ArchAMD64, sys.ArchARM64, sys.ArchS390X)
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
addF("math/bits", "Div64",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
// check for divide-by-zero/overflow and panic with appropriate message
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmpZero := s.newValue2(s.ssaOp(ir.ONE, types.Types[types.TUINT64]), types.Types[types.TBOOL], args[2], s.zeroVal(types.Types[types.TUINT64]))
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
s.check(cmpZero, panicdivide)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmpOverflow := s.newValue2(s.ssaOp(ir.OLT, types.Types[types.TUINT64]), types.Types[types.TBOOL], args[0], args[2])
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
s.check(cmpOverflow, panicoverflow)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue3(ssa.OpDiv128u, types.NewTuple(types.Types[types.TUINT64], types.Types[types.TUINT64]), args[0], args[1], args[2])
cmd/compile: intrinsify math/bits.Div on amd64 Note that the intrinsic implementation panics separately for overflow and divide by zero, which matches the behavior of the pure go implementation. There is a modest performance improvement after intrinsic implementation. name old time/op new time/op delta Div-4 53.0ns ± 1% 47.0ns ± 0% -11.28% (p=0.008 n=5+5) Div32-4 18.4ns ± 0% 18.5ns ± 1% ~ (p=0.444 n=5+5) Div64-4 53.3ns ± 0% 47.5ns ± 4% -10.77% (p=0.008 n=5+5) Updates #28273 Change-Id: Ic1688ecc0964acace2e91bf44ef16f5fb6b6bc82 Reviewed-on: https://go-review.googlesource.com/c/144378 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-10-23 20:54:56 -06:00
},
sys.AMD64)
alias("math/bits", "Div", "math/bits", "Div64", sys.ArchAMD64)
cmd/compile: intrinsify math/bits.Sub on amd64 name old time/op new time/op delta Sub-8 1.12ns ± 1% 1.17ns ± 1% +5.20% (p=0.008 n=5+5) Sub32-8 1.11ns ± 0% 1.11ns ± 0% ~ (all samples are equal) Sub64-8 1.12ns ± 0% 1.18ns ± 1% +5.00% (p=0.016 n=4+5) Sub64multiple-8 4.10ns ± 1% 0.86ns ± 1% -78.93% (p=0.008 n=5+5) Fixes #28273 Change-Id: Ibcb6f2fd32d987c3bcbae4f4cd9d335a3de98548 Reviewed-on: https://go-review.googlesource.com/c/144258 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-23 14:38:22 -07:00
cmd/compile: declare runtime bit func aliases after math/bits intrinsics Currently runtime/internal/sys bit-manipulation functions are aliased to math/bits functions, which are intrinsified. Unfortunately these aliases are declared before the intrinsified versions are generated, resulting in the generic version of the code being copied over. This change moves the aliases for bit operations in runtime/internal/sys after the addF calls to generate those intrinsics in SSA, so that the intrinsified SSA representation of those functions actually get copied over. This should improve the overall performance of the runtime (especially the page allocator) since these bit operations will actually be intrinsified now. Change-Id: I4377da13f9a7bb6aee608e50df0297148bf8f806 Reviewed-on: https://go-review.googlesource.com/c/go/+/224437 Run-TryBot: Michael Knyszek <mknyszek@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-20 15:26:46 +00:00
alias("runtime/internal/sys", "Ctz8", "math/bits", "TrailingZeros8", all...)
alias("runtime/internal/sys", "TrailingZeros8", "math/bits", "TrailingZeros8", all...)
alias("runtime/internal/sys", "TrailingZeros64", "math/bits", "TrailingZeros64", all...)
alias("runtime/internal/sys", "Len8", "math/bits", "Len8", all...)
alias("runtime/internal/sys", "Len64", "math/bits", "Len64", all...)
alias("runtime/internal/sys", "OnesCount64", "math/bits", "OnesCount64", all...)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
/******** sync/atomic ********/
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
// Note: these are disabled by flag_race in findIntrinsic below.
alias("sync/atomic", "LoadInt32", "runtime/internal/atomic", "Load", all...)
alias("sync/atomic", "LoadInt64", "runtime/internal/atomic", "Load64", all...)
alias("sync/atomic", "LoadPointer", "runtime/internal/atomic", "Loadp", all...)
alias("sync/atomic", "LoadUint32", "runtime/internal/atomic", "Load", all...)
alias("sync/atomic", "LoadUint64", "runtime/internal/atomic", "Load64", all...)
alias("sync/atomic", "LoadUintptr", "runtime/internal/atomic", "Load", p4...)
alias("sync/atomic", "LoadUintptr", "runtime/internal/atomic", "Load64", p8...)
alias("sync/atomic", "StoreInt32", "runtime/internal/atomic", "Store", all...)
alias("sync/atomic", "StoreInt64", "runtime/internal/atomic", "Store64", all...)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
// Note: not StorePointer, that needs a write barrier. Same below for {CompareAnd}Swap.
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
alias("sync/atomic", "StoreUint32", "runtime/internal/atomic", "Store", all...)
alias("sync/atomic", "StoreUint64", "runtime/internal/atomic", "Store64", all...)
alias("sync/atomic", "StoreUintptr", "runtime/internal/atomic", "Store", p4...)
alias("sync/atomic", "StoreUintptr", "runtime/internal/atomic", "Store64", p8...)
alias("sync/atomic", "SwapInt32", "runtime/internal/atomic", "Xchg", all...)
alias("sync/atomic", "SwapInt64", "runtime/internal/atomic", "Xchg64", all...)
alias("sync/atomic", "SwapUint32", "runtime/internal/atomic", "Xchg", all...)
alias("sync/atomic", "SwapUint64", "runtime/internal/atomic", "Xchg64", all...)
alias("sync/atomic", "SwapUintptr", "runtime/internal/atomic", "Xchg", p4...)
alias("sync/atomic", "SwapUintptr", "runtime/internal/atomic", "Xchg64", p8...)
alias("sync/atomic", "CompareAndSwapInt32", "runtime/internal/atomic", "Cas", all...)
alias("sync/atomic", "CompareAndSwapInt64", "runtime/internal/atomic", "Cas64", all...)
alias("sync/atomic", "CompareAndSwapUint32", "runtime/internal/atomic", "Cas", all...)
alias("sync/atomic", "CompareAndSwapUint64", "runtime/internal/atomic", "Cas64", all...)
alias("sync/atomic", "CompareAndSwapUintptr", "runtime/internal/atomic", "Cas", p4...)
alias("sync/atomic", "CompareAndSwapUintptr", "runtime/internal/atomic", "Cas64", p8...)
alias("sync/atomic", "AddInt32", "runtime/internal/atomic", "Xadd", all...)
alias("sync/atomic", "AddInt64", "runtime/internal/atomic", "Xadd64", all...)
alias("sync/atomic", "AddUint32", "runtime/internal/atomic", "Xadd", all...)
alias("sync/atomic", "AddUint64", "runtime/internal/atomic", "Xadd64", all...)
alias("sync/atomic", "AddUintptr", "runtime/internal/atomic", "Xadd", p4...)
alias("sync/atomic", "AddUintptr", "runtime/internal/atomic", "Xadd64", p8...)
cmd/compile: intrinsify math/big.mulWW, divWW on AMD64 Change-Id: I59f7afa7a5803d19f8b21fe70fc85ef997bb3a85 Reviewed-on: https://go-review.googlesource.com/30542 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-06 15:43:47 -04:00
/******** math/big ********/
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
add("math/big", "mulWW",
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func(s *state, n ir.Node, args []*ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue2(ssa.OpMul64uhilo, types.NewTuple(types.Types[types.TUINT64], types.Types[types.TUINT64]), args[0], args[1])
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
},
cmd/compile/internal/gc: intrinsify mulWW on s390x SSA rule have already been added previously to intrisinfy Mul/Mul64 on s390x. In this CL, we want to let mulWW use that SSA rule as well. Also removed an extra line for formatting. Benchmarks: QuoRem-18 3.59µs ±15% 2.94µs ± 3% -18.06% (p=0.000 n=8+8) ModSqrt225_Tonelli-18 806µs ± 0% 800µs ± 0% -0.85% (p=0.000 n=7+8) ModSqrt225_3Mod4-18 245µs ± 1% 243µs ± 0% -0.81% (p=0.001 n=8+8) ModSqrt231_Tonelli-18 837µs ± 0% 834µs ± 1% -0.36% (p=0.028 n=8+8) ModSqrt231_5Mod8-18 282µs ± 0% 280µs ± 0% -0.76% (p=0.000 n=8+8) Sqrt-18 45.8µs ± 2% 38.6µs ± 0% -15.63% (p=0.000 n=8+8) IntSqr/1-18 19.1ns ± 0% 13.1ns ± 0% -31.41% (p=0.000 n=8+8) IntSqr/2-18 48.3ns ± 2% 48.2ns ± 0% ~ (p=0.094 n=8+8) IntSqr/3-18 70.5ns ± 1% 70.7ns ± 0% ~ (p=0.428 n=8+8) IntSqr/5-18 119ns ± 1% 118ns ± 0% -1.02% (p=0.000 n=7+8) IntSqr/8-18 215ns ± 1% 215ns ± 0% ~ (p=0.320 n=8+7) IntSqr/10-18 302ns ± 1% 301ns ± 0% ~ (p=0.148 n=8+7) IntSqr/20-18 952ns ± 1% 807ns ± 0% -15.28% (p=0.000 n=8+8) IntSqr/30-18 1.74µs ± 0% 1.53µs ± 0% -11.93% (p=0.000 n=8+8) IntSqr/50-18 3.91µs ± 0% 3.57µs ± 0% -8.64% (p=0.000 n=7+8) IntSqr/80-18 8.66µs ± 1% 8.11µs ± 0% -6.39% (p=0.000 n=8+8) IntSqr/100-18 12.8µs ± 0% 12.2µs ± 0% -5.19% (p=0.000 n=8+8) IntSqr/200-18 46.0µs ± 0% 44.5µs ± 0% -3.06% (p=0.000 n=8+8) IntSqr/300-18 81.4µs ± 0% 78.4µs ± 0% -3.71% (p=0.000 n=7+8) IntSqr/500-18 212µs ± 1% 206µs ± 0% -2.66% (p=0.000 n=8+8) IntSqr/800-18 419µs ± 1% 406µs ± 0% -3.07% (p=0.000 n=8+8) IntSqr/1000-18 635µs ± 0% 621µs ± 0% -2.13% (p=0.000 n=8+8) Change-Id: Ib097857186932b902601ab087cbeff3fc9555c3e Reviewed-on: https://go-review.googlesource.com/c/go/+/197639 Run-TryBot: Emmanuel Odeke <emm.odeke@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-09-24 10:42:32 -04:00
sys.ArchAMD64, sys.ArchARM64, sys.ArchPPC64LE, sys.ArchPPC64, sys.ArchS390X)
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
}
// findIntrinsic returns a function which builds the SSA equivalent of the
// function identified by the symbol sym. If sym is not an intrinsic call, returns nil.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func findIntrinsic(sym *types.Sym) intrinsicBuilder {
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
if sym == nil || sym.Pkg == nil {
return nil
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
}
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
pkg := sym.Pkg.Path
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if sym.Pkg == ir.LocalPkg {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
pkg = base.Ctxt.Pkgpath
cmd/compile: intrinsify math/big.mulWW, divWW on AMD64 Change-Id: I59f7afa7a5803d19f8b21fe70fc85ef997bb3a85 Reviewed-on: https://go-review.googlesource.com/30542 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-06 15:43:47 -04:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.Race && pkg == "sync/atomic" {
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
// The race detector needs to be able to intercept these calls.
// We can't intrinsify them.
return nil
cmd/compile: inline atomics from runtime/internal/atomic on amd64 Inline atomic reads and writes on amd64. There's no reason to pay the overhead of a call for these. To keep atomic loads from being reordered, we make them return a <value,memory> tuple. Change the meaning of resultInArg0 for tuple-generating ops to mean the first part of the result tuple, not the second. This means we can always put the store part of the tuple last, matching how arguments are laid out. This requires reordering the outputs of add32carry and sub32carry and their descendents in various architectures. benchmark old ns/op new ns/op delta BenchmarkAtomicLoad64-8 2.09 0.26 -87.56% BenchmarkAtomicStore64-8 7.54 5.72 -24.14% TBD (in a different CL): Cas, Or8, ... Change-Id: I713ea88e7da3026c44ea5bdb56ed094b20bc5207 Reviewed-on: https://go-review.googlesource.com/27641 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-23 16:49:28 -07:00
}
cmd/compile: use soft-float routines for soft-float targets Updates #18162 (mostly fixes) Change-Id: I35bcb8a688bdaa432adb0ddbb73a2f7adda47b9e Reviewed-on: https://go-review.googlesource.com/37958 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-10 18:08:48 +01:00
// Skip intrinsifying math functions (which may contain hard-float
// instructions) when soft-float
if thearch.SoftFloat && pkg == "math" {
return nil
}
cmd/compile: intrinsics for math/bits.TrailingZerosX Implement math/bits.TrailingZerosX using intrinsics. Generally reorganize the intrinsic spec a bit. The instrinsics data structure is now built at init time. This will make doing the other functions in math/bits easier. Update sys.CtzX to return int instead of uint{64,32} so it matches math/bits.TrailingZerosX. Improve the intrinsics a bit for amd64. We don't need the CMOV for <64 bit versions. Update #18616 Change-Id: Ic1c5339c943f961d830ae56f12674d7b29d4ff39 Reviewed-on: https://go-review.googlesource.com/38155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-03-14 13:25:12 -07:00
fn := sym.Name
cmd/compile: make sure build works when intrinsics are disabled Some runtime functions, like getcallerpc/sp, don't have Go or assembly implementations and have to be intrinsified. Make sure they are, even if intrinsics are disabled. This makes "go build -gcflags=all=-d=ssa/intrinsics/off hello.go" work. Change-Id: I77caaed7715d3ca7ffef68a3cdc9357f095c6b9f Reviewed-on: https://go-review.googlesource.com/c/go/+/179897 Run-TryBot: Cherry Zhang <cherryyz@google.com> Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-05-31 17:11:50 -04:00
if ssa.IntrinsicsDisable {
if pkg == "runtime" && (fn == "getcallerpc" || fn == "getcallersp" || fn == "getclosureptr") {
// These runtime functions don't have definitions, must be intrinsics.
} else {
return nil
}
}
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
return intrinsics[intrinsicKey{thearch.LinkArch.Arch, pkg, fn}]
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func isIntrinsicCall(n ir.Node) bool {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n == nil || n.Left() == nil {
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
return false
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return findIntrinsic(n.Left().Sym()) != nil
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
}
// intrinsicCall converts a call to a recognized intrinsic function into the intrinsic SSA operation.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) intrinsicCall(n ir.Node) *ssa.Value {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := findIntrinsic(n.Left().Sym())(s, n, s.intrinsicArgs(n))
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
if ssa.IntrinsicsDebug > 0 {
x := v
if x == nil {
x = s.mem()
}
if x.Op == ssa.OpSelect0 || x.Op == ssa.OpSelect1 {
x = x.Args[0]
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "intrinsic substitution for %v with %s", n.Left().Sym().Name, x.LongString())
cmd/compile: intrinsify sync/atomic for amd64 Uses the same implementation as runtime/internal/atomic. Reorganize the intrinsic detector to make it more table-driven. Also works on amd64p32. Change-Id: I7a5238951d6018d7d5d1bc01f339f6ee9282b2d0 Reviewed-on: https://go-review.googlesource.com/28076 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-29 20:28:20 -07:00
}
return v
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
}
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
// intrinsicArgs extracts args from n, evaluates them to SSA values, and returns them.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) intrinsicArgs(n ir.Node) []*ssa.Value {
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
// Construct map of temps; see comments in s.call about the structure of n.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
temps := map[ir.Node]*ssa.Value{}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, a := range n.List().Slice() {
if a.Op() != ir.OAS {
s.Fatalf("non-assignment as a temp function argument %v", a.Op())
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
l, r := a.Left(), a.Right()
if l.Op() != ir.ONAME {
s.Fatalf("non-ONAME temp function argument %v", a.Op())
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
}
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
// Evaluate and store to "temporary".
// Walk ensures these temporaries are dead outside of n.
temps[l] = s.expr(r)
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
args := make([]*ssa.Value, n.Rlist().Len())
for i, n := range n.Rlist().Slice() {
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
// Store a value to an argument slot.
if x, ok := temps[n]; ok {
// This is a previously computed temporary.
args[i] = x
continue
}
// This is an explicit value; evaluate it.
args[i] = s.expr(n)
cmd/compile: compute faulting args before writing args to stack when compiling f(a, b, c), we do something like: *(SP+0) = eval(a) *(SP+8) = eval(b) *(SP+16) = eval(c) call f If one of those evaluations is later determined to unconditionally panic (say eval(b) in this example), then the call is deadcode eliminated. But any previous argument write (*(SP+0)=... here) is still around. Becuase we only compute the size of the outarg area for calls which are still around at the end of optimization, the space needed for *(SP+0)=v is not accounted for and thus the outarg area may be too small. The fix is to make sure that we evaluate any potentially panicing operation before we write any of the args to the stack. It turns out that fix is pretty easy, as we already have such a mechanism available for function args. We just need to extend it to possibly panicing args as well. The resulting code (if b and c can panic, but a can't) is: tmpb = eval(b) *(SP+16) = eval(c) *(SP+0) = eval(a) *(SP+8) = tmpb call f This change tickled a bug in how we find the arguments for intrinsic calls, so that latent bug is fixed up as well. Update #16760. Change-Id: I0bf5edf370220f82bc036cf2085ecc24f356d166 Reviewed-on: https://go-review.googlesource.com/32551 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-11-01 15:28:10 -07:00
}
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
return args
cmd/compile: inline atomics from runtime/internal/atomic on amd64 Inline atomic reads and writes on amd64. There's no reason to pay the overhead of a call for these. To keep atomic loads from being reordered, we make them return a <value,memory> tuple. Change the meaning of resultInArg0 for tuple-generating ops to mean the first part of the result tuple, not the second. This means we can always put the store part of the tuple last, matching how arguments are laid out. This requires reordering the outputs of add32carry and sub32carry and their descendents in various architectures. benchmark old ns/op new ns/op delta BenchmarkAtomicLoad64-8 2.09 0.26 -87.56% BenchmarkAtomicStore64-8 7.54 5.72 -24.14% TBD (in a different CL): Cas, Or8, ... Change-Id: I713ea88e7da3026c44ea5bdb56ed094b20bc5207 Reviewed-on: https://go-review.googlesource.com/27641 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-08-23 16:49:28 -07:00
}
cmd/compile: added some intrinsics to SSA back end One intrinsic was needed to help get the very best performance out of a future GC; as long as that one was being added, I also added Bswap since that is sometimes a handy thing to have. I had intended to fill out the bit-scan intrinsic family, but the mismatch between the "scan forward" instruction and "count leading zeroes" was large enough to cause me to leave it out -- it poses a dilemma that I'd rather dodge right now. These intrinsics are not exposed for general use. That's a separate issue requiring an API proposal change ( https://github.com/golang/proposal ) All intrinsics are tested, both that they are substituted on the appropriate architecture, and that they produce the expected result. Change-Id: I5848037cfd97de4f75bdc33bdd89bba00af4a8ee Reviewed-on: https://go-review.googlesource.com/20564 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-11 00:10:52 -05:00
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// openDeferRecord adds code to evaluate and store the args for an open-code defer
// call, and records info about the defer, so we can generate proper code on the
// exit paths. n is the sub-node of the defer node that is the actual function
// call. We will also record funcdata information on where the args are stored
// (as well as the deferBits variable), and this will enable us to run the proper
// defer calls during panics.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) openDeferRecord(n ir.Node) {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Do any needed expression evaluation for the args (including the
// receiver, if any). This may be evaluating something like 'autotmp_3 =
// once.mutex'. Such a statement will create a mapping in s.vars[] from
// the autotmp name to the evaluated SSA arg value, but won't do any
// stores to the stack.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
var args []*ssa.Value
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
var argNodes []ir.Node
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
opendefer := &openDeferInfo{
n: n,
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
fn := n.Left()
if n.Op() == ir.OCALLFUNC {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// We must always store the function value in a stack slot for the
// runtime panic code to use. But in the defer exit code, we will
// call the function directly if it is a static function.
closureVal := s.expr(fn)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
closure := s.openDeferSave(nil, fn.Type(), closureVal)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
opendefer.closureNode = closure.Aux.(ir.Node)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !(fn.Op() == ir.ONAME && fn.Class() == ir.PFUNC) {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
opendefer.closure = closure
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
} else if n.Op() == ir.OCALLMETH {
if fn.Op() != ir.ODOTMETH {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("OCALLMETH: n.Left not an ODOTMETH: %v", fn)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
closureVal := s.getMethodClosure(fn)
// We must always store the function value in a stack slot for the
// runtime panic code to use. But in the defer exit code, we will
// call the method directly.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
closure := s.openDeferSave(nil, fn.Type(), closureVal)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
opendefer.closureNode = closure.Aux.(ir.Node)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if fn.Op() != ir.ODOTINTER {
base.Fatalf("OCALLINTER: n.Left not an ODOTINTER: %v", fn.Op())
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
closure, rcvr := s.getClosureAndRcvr(fn)
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
opendefer.closure = s.openDeferSave(nil, closure.Type, closure)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Important to get the receiver type correct, so it is recognized
// as a pointer for GC purposes.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
opendefer.rcvr = s.openDeferSave(nil, fn.Type().Recv().Type, rcvr)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
opendefer.closureNode = opendefer.closure.Aux.(ir.Node)
opendefer.rcvrNode = opendefer.rcvr.Aux.(ir.Node)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, argn := range n.Rlist().Slice() {
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
var v *ssa.Value
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if canSSAType(argn.Type()) {
v = s.openDeferSave(nil, argn.Type(), s.expr(argn))
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v = s.openDeferSave(argn, argn.Type(), nil)
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
args = append(args, v)
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
argNodes = append(argNodes, v.Aux.(ir.Node))
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
opendefer.argVals = args
opendefer.argNodes = argNodes
index := len(s.openDefers)
s.openDefers = append(s.openDefers, opendefer)
// Update deferBits only after evaluation and storage to stack of
// args/receiver/interface is successful.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
bitvalue := s.constInt8(types.Types[types.TUINT8], 1<<uint(index))
newDeferBits := s.newValue2(ssa.OpOr8, types.Types[types.TUINT8], s.variable(deferBitsVar, types.Types[types.TUINT8]), bitvalue)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[deferBitsVar] = newDeferBits
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINT8], s.deferBitsAddr, newDeferBits)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
// openDeferSave generates SSA nodes to store a value (with type t) for an
// open-coded defer at an explicit autotmp location on the stack, so it can be
// reloaded and used for the appropriate call on exit. If type t is SSAable, then
// val must be non-nil (and n should be nil) and val is the value to be stored. If
// type t is non-SSAable, then n must be non-nil (and val should be nil) and n is
// evaluated (via s.addr() below) to get the value that is to be stored. The
// function returns an SSA value representing a pointer to the autotmp location.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) openDeferSave(n ir.Node, t *types.Type, val *ssa.Value) *ssa.Value {
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
canSSA := canSSAType(t)
var pos src.XPos
if canSSA {
pos = val.Pos
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pos = n.Pos()
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
}
argTemp := tempAt(pos.WithNotStmt(), s.curfn, t)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
argTemp.Name().SetOpenDeferSlot(true)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
var addrArgTemp *ssa.Value
// Use OpVarLive to make sure stack slots for the args, etc. are not
// removed by dead-store elimination
if s.curBlock.ID != s.f.Entry.ID {
// Force the argtmp storing this defer function/receiver/arg to be
// declared in the entry block, so that it will be live for the
// defer exit code (which will actually access it only if the
// associated defer call has been activated).
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.defvars[s.f.Entry.ID][memVar] = s.entryNewValue1A(ssa.OpVarDef, types.TypeMem, argTemp, s.defvars[s.f.Entry.ID][memVar])
s.defvars[s.f.Entry.ID][memVar] = s.entryNewValue1A(ssa.OpVarLive, types.TypeMem, argTemp, s.defvars[s.f.Entry.ID][memVar])
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addrArgTemp = s.entryNewValue2A(ssa.OpLocalAddr, types.NewPtr(argTemp.Type()), argTemp, s.sp, s.defvars[s.f.Entry.ID][memVar])
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
} else {
// Special case if we're still in the entry block. We can't use
// the above code, since s.defvars[s.f.Entry.ID] isn't defined
// until we end the entry block with s.endBlock().
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarDef, types.TypeMem, argTemp, s.mem(), false)
s.vars[memVar] = s.newValue1Apos(ssa.OpVarLive, types.TypeMem, argTemp, s.mem(), false)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addrArgTemp = s.newValue2Apos(ssa.OpLocalAddr, types.NewPtr(argTemp.Type()), argTemp, s.sp, s.mem(), false)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
cmd/compile: make Haspointers a method instead of a function More ergonomic that way. Also change Haspointers to HasPointers while we are here. Change-Id: I45bedc294c1a8c2bd01dc14bd04615ae77555375 Reviewed-on: https://go-review.googlesource.com/c/go/+/249959 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-08-22 14:07:30 -07:00
if t.HasPointers() {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Since we may use this argTemp during exit depending on the
// deferBits, we must define it unconditionally on entry.
// Therefore, we must make sure it is zeroed out in the entry
// block if it contains pointers, else GC may wrongly follow an
// uninitialized pointer value.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
argTemp.Name().SetNeedzero(true)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
cmd/compile: handle some missing cases of non-SSAable values for args of open-coded defers In my experimentation, I had found that most non-SSAable expressions were converted to autotmp variables during AST evaluation. However, this was not true generally, as witnessed by issue #35213, which has a non-SSAable field reference of a struct that is not converted to an autotmp. So, I fixed openDeferSave() to handle non-SSAable nodes more generally, and make sure that these non-SSAable expressions are not evaluated more than once (which could incorrectly repeat side effects). Fixes #35213 Change-Id: I8043d5576b455e94163599e930ca0275e550d594 Reviewed-on: https://go-review.googlesource.com/c/go/+/203888 Run-TryBot: Dan Scales <danscales@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-10-28 15:55:36 -07:00
if !canSSA {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
a := s.addr(n)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
s.move(t, addrArgTemp, a)
return addrArgTemp
}
// We are storing to the stack, hence we can avoid the full checks in
// storeType() (no write barrier) and do a simple store().
s.store(t, addrArgTemp, val)
return addrArgTemp
}
// openDeferExit generates SSA for processing all the open coded defers at exit.
// The code involves loading deferBits, and checking each of the bits to see if
// the corresponding defer statement was executed. For each bit that is turned
// on, the associated defer call is made.
func (s *state) openDeferExit() {
deferExit := s.f.NewBlock(ssa.BlockPlain)
s.endBlock().AddEdgeTo(deferExit)
s.startBlock(deferExit)
s.lastDeferExit = deferExit
s.lastDeferCount = len(s.openDefers)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
zeroval := s.constInt8(types.Types[types.TUINT8], 0)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
testLateExpansion := ssa.LateCallExpansionEnabledWithin(s.f)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Test for and run defers in reverse order
for i := len(s.openDefers) - 1; i >= 0; i-- {
r := s.openDefers[i]
bCond := s.f.NewBlock(ssa.BlockPlain)
bEnd := s.f.NewBlock(ssa.BlockPlain)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
deferBits := s.variable(deferBitsVar, types.Types[types.TUINT8])
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Generate code to check if the bit associated with the current
// defer is set.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
bitval := s.constInt8(types.Types[types.TUINT8], 1<<uint(i))
andval := s.newValue2(ssa.OpAnd8, types.Types[types.TUINT8], deferBits, bitval)
eqVal := s.newValue2(ssa.OpEq8, types.Types[types.TBOOL], andval, zeroval)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(eqVal)
b.AddEdgeTo(bEnd)
b.AddEdgeTo(bCond)
bCond.AddEdgeTo(bEnd)
s.startBlock(bCond)
// Clear this bit in deferBits and force store back to stack, so
// we will not try to re-run this defer call if this defer call panics.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
nbitval := s.newValue1(ssa.OpCom8, types.Types[types.TUINT8], bitval)
maskedval := s.newValue2(ssa.OpAnd8, types.Types[types.TUINT8], deferBits, nbitval)
s.store(types.Types[types.TUINT8], s.deferBitsAddr, maskedval)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Use this value for following tests, so we keep previous
// bits cleared.
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[deferBitsVar] = maskedval
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Generate code to call the function call of the defer, using the
// closure/receiver/args that were stored in argtmps at the point
// of the defer statement.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
argStart := base.Ctxt.FixedFrameSize()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
fn := r.n.Left()
stksize := fn.Type().ArgWidth()
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
var ACArgs []ssa.Param
var ACResults []ssa.Param
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
var callArgs []*ssa.Value
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if r.rcvr != nil {
// rcvr in case of OCALLINTER
v := s.load(r.rcvr.Type.Elem(), r.rcvr)
addr := s.constOffPtrSP(s.f.Config.Types.UintptrPtr, argStart)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ACArgs = append(ACArgs, ssa.Param{Type: types.Types[types.TUINTPTR], Offset: int32(argStart)})
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
if testLateExpansion {
callArgs = append(callArgs, v)
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINTPTR], addr, v)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
for j, argAddrVal := range r.argVals {
f := getParam(r.n, j)
pt := types.NewPtr(f.Type)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
ACArgs = append(ACArgs, ssa.Param{Type: f.Type, Offset: int32(argStart + f.Offset)})
if testLateExpansion {
var a *ssa.Value
if !canSSAType(f.Type) {
a = s.newValue2(ssa.OpDereference, f.Type, argAddrVal, s.mem())
} else {
a = s.load(f.Type, argAddrVal)
}
callArgs = append(callArgs, a)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
} else {
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
addr := s.constOffPtrSP(pt, argStart+f.Offset)
if !canSSAType(f.Type) {
s.move(f.Type, addr, argAddrVal)
} else {
argVal := s.load(f.Type, argAddrVal)
s.storeType(f.Type, addr, argVal, 0, false)
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
}
var call *ssa.Value
if r.closure != nil {
v := s.load(r.closure.Type.Elem(), r.closure)
s.maybeNilCheckClosure(v, callDefer)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
codeptr := s.rawLoad(types.Types[types.TUINTPTR], v)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
aux := ssa.ClosureAuxCall(ACArgs, ACResults)
if testLateExpansion {
callArgs = append(callArgs, s.mem())
call = s.newValue2A(ssa.OpClosureLECall, aux.LateExpansionResultType(), aux, codeptr, v)
call.AddArgs(callArgs...)
} else {
call = s.newValue3A(ssa.OpClosureCall, types.TypeMem, aux, codeptr, v, s.mem())
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
aux := ssa.StaticAuxCall(fn.Sym().Linksym(), ACArgs, ACResults)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
if testLateExpansion {
callArgs = append(callArgs, s.mem())
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
call.AddArgs(callArgs...)
} else {
// Do a static call if the original call was a static function or method
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, aux, s.mem())
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
call.AuxInt = stksize
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
if testLateExpansion {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1I(ssa.OpSelectN, types.TypeMem, int64(len(ACResults)), call)
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
} else {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = call
cmd/compile: enable late expansion in openDeferExit Change-Id: I4ce9e914d22b519b00d7e19d93091f6ac0b60938 Reviewed-on: https://go-review.googlesource.com/c/go/+/248188 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 12:58:07 -04:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Make sure that the stack slots with pointers are kept live
// through the call (which is a pre-emption point). Also, we will
// use the first call of the last defer exit to compute liveness
// for the deferreturn, so we want all stack slots to be live.
if r.closureNode != nil {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarLive, types.TypeMem, r.closureNode, s.mem(), false)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
if r.rcvrNode != nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if r.rcvrNode.Type().HasPointers() {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarLive, types.TypeMem, r.rcvrNode, s.mem(), false)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
}
for _, argNode := range r.argNodes {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if argNode.Type().HasPointers() {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1Apos(ssa.OpVarLive, types.TypeMem, argNode, s.mem(), false)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
}
}
s.endBlock()
s.startBlock(bEnd)
}
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) callResult(n ir.Node, k callKind) *ssa.Value {
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
return s.call(n, k, false)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) callAddr(n ir.Node, k callKind) *ssa.Value {
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
return s.call(n, k, true)
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
// Calls the function n using the specified call type.
// Returns the address of the return value (or nil if none).
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) call(n ir.Node, k callKind, returnResultAddr bool) *ssa.Value {
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
s.prevCall = nil
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
var sym *types.Sym // target symbol (if static)
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
var closure *ssa.Value // ptr to closure to run (if dynamic)
var codeptr *ssa.Value // ptr to target code (if dynamic)
var rcvr *ssa.Value // receiver to set
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
fn := n.Left()
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
var ACArgs []ssa.Param
var ACResults []ssa.Param
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
var callArgs []*ssa.Value
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
res := n.Left().Type().Results()
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
if k == callNormal {
nf := res.NumFields()
for i := 0; i < nf; i++ {
fp := res.Field(i)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
ACResults = append(ACResults, ssa.Param{Type: fp.Type, Offset: int32(fp.Offset + base.Ctxt.FixedFrameSize())})
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
}
}
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
testLateExpansion := false
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLFUNC:
cmd/compile: some minor cleanups Change-Id: Icdf3320814ad4a86a5ae532f4fcb899da3f46ae3 Reviewed-on: https://go-review.googlesource.com/c/go/+/248186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-10 13:33:15 -04:00
testLateExpansion = k != callDeferStack && ssa.LateCallExpansionEnabledWithin(s.f)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if k == callNormal && fn.Op() == ir.ONAME && fn.Class() == ir.PFUNC {
sym = fn.Sym()
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
break
}
closure = s.expr(fn)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if k != callDefer && k != callDeferStack {
// Deferred nil function needs to panic when the function is invoked,
// not the point of defer statement.
s.maybeNilCheckClosure(closure, k)
cmd/compile/internal/gc: add nil check for closure call on wasm This commit adds an explicit nil check for closure calls on wasm, so calling a nil func causes a proper panic instead of crashing on the WebAssembly level. Change-Id: I6246844f316677976cdd420618be5664444c25ae Reviewed-on: https://go-review.googlesource.com/127759 Run-TryBot: Richard Musiol <neelance@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-08-05 18:52:15 +02:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLMETH:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if fn.Op() != ir.ODOTMETH {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("OCALLMETH: n.Left not an ODOTMETH: %v", fn)
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
}
cmd/compile: some minor cleanups Change-Id: Icdf3320814ad4a86a5ae532f4fcb899da3f46ae3 Reviewed-on: https://go-review.googlesource.com/c/go/+/248186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-10 13:33:15 -04:00
testLateExpansion = k != callDeferStack && ssa.LateCallExpansionEnabledWithin(s.f)
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
if k == callNormal {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
sym = fn.Sym()
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
break
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
closure = s.getMethodClosure(fn)
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
// Note: receiver is already present in n.Rlist, so we don't
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
// want to set it here.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLINTER:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if fn.Op() != ir.ODOTINTER {
s.Fatalf("OCALLINTER: n.Left not an ODOTINTER: %v", fn.Op())
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
}
cmd/compile: some minor cleanups Change-Id: Icdf3320814ad4a86a5ae532f4fcb899da3f46ae3 Reviewed-on: https://go-review.googlesource.com/c/go/+/248186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-10 13:33:15 -04:00
testLateExpansion = k != callDeferStack && ssa.LateCallExpansionEnabledWithin(s.f)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
var iclosure *ssa.Value
iclosure, rcvr = s.getClosureAndRcvr(fn)
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
if k == callNormal {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
codeptr = s.load(types.Types[types.TUINTPTR], iclosure)
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
} else {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
closure = iclosure
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
}
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
dowidth(fn.Type())
stksize := fn.Type().ArgWidth() // includes receiver, args, and results
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
// Run all assignments of temps.
// The temps are introduced to avoid overwriting argument
// slots when arguments themselves require function calls.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.List())
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
var call *ssa.Value
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
if k == callDeferStack {
cmd/compile: enable late call lowering for "callDeferStack" Change-Id: I773fce43d43f6e19180531e7bd1cc50bd8f31f75 Reviewed-on: https://go-review.googlesource.com/c/go/+/248187 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-11 12:52:01 -04:00
testLateExpansion = ssa.LateCallExpansionEnabledWithin(s.f)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// Make a defer struct d on the stack.
t := deferstruct(stksize)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
d := tempAt(n.Pos(), s.curfn, t)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarDef, types.TypeMem, d, s.mem())
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr := s.addr(d)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// Must match reflect.go:deferstruct and src/runtime/runtime2.go:_defer.
// 0: siz
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINT32],
s.newValue1I(ssa.OpOffPtr, types.Types[types.TUINT32].PtrTo(), t.FieldOff(0), addr),
s.constInt32(types.Types[types.TUINT32], int32(stksize)))
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// 1: started, set in deferprocStack
// 2: heap, set in deferprocStack
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// 3: openDefer
// 4: sp, set in deferprocStack
// 5: pc, set in deferprocStack
// 6: fn
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
s.store(closure.Type,
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
s.newValue1I(ssa.OpOffPtr, closure.Type.PtrTo(), t.FieldOff(6), addr),
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
closure)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// 7: panic, set in deferprocStack
// 8: link, set in deferprocStack
// 9: framepc
// 10: varp
// 11: fd
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// Then, store all the arguments of the defer call.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
ft := fn.Type()
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
off := t.FieldOff(12)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
args := n.Rlist().Slice()
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// Set receiver (for interface calls). Always a pointer.
if rcvr != nil {
p := s.newValue1I(ssa.OpOffPtr, ft.Recv().Type.PtrTo(), off, addr)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINTPTR], p, rcvr)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
// Set receiver (for method calls).
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OCALLMETH {
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
f := ft.Recv()
s.storeArgWithBase(args[0], f.Type, addr, off+f.Offset)
args = args[1:]
}
// Set other args.
for _, f := range ft.Params().Fields().Slice() {
s.storeArgWithBase(args[0], f.Type, addr, off+f.Offset)
args = args[1:]
}
// Call runtime.deferprocStack with pointer to _defer record.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ACArgs = append(ACArgs, ssa.Param{Type: types.Types[types.TUINTPTR], Offset: int32(base.Ctxt.FixedFrameSize())})
cmd/compile: enable late call lowering for "callDeferStack" Change-Id: I773fce43d43f6e19180531e7bd1cc50bd8f31f75 Reviewed-on: https://go-review.googlesource.com/c/go/+/248187 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-11 12:52:01 -04:00
aux := ssa.StaticAuxCall(deferprocStack, ACArgs, ACResults)
if testLateExpansion {
callArgs = append(callArgs, addr, s.mem())
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
call.AddArgs(callArgs...)
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
arg0 := s.constOffPtrSP(types.Types[types.TUINTPTR], base.Ctxt.FixedFrameSize())
s.store(types.Types[types.TUINTPTR], arg0, addr)
cmd/compile: enable late call lowering for "callDeferStack" Change-Id: I773fce43d43f6e19180531e7bd1cc50bd8f31f75 Reviewed-on: https://go-review.googlesource.com/c/go/+/248187 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-11 12:52:01 -04:00
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, aux, s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
if stksize < int64(Widthptr) {
// We need room for both the call to deferprocStack and the call to
// the deferred function.
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
// TODO Revisit this if/when we pass args in registers.
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
stksize = int64(Widthptr)
}
call.AuxInt = stksize
} else {
// Store arguments to stack, including defer/go arguments and receiver for method calls.
// These are written in SP-offset order.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
argStart := base.Ctxt.FixedFrameSize()
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// Defer/go args.
if k != callNormal {
// Write argsize and closure (args to newproc/deferproc).
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
argsize := s.constInt32(types.Types[types.TUINT32], int32(stksize))
ACArgs = append(ACArgs, ssa.Param{Type: types.Types[types.TUINT32], Offset: int32(argStart)})
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
callArgs = append(callArgs, argsize)
} else {
addr := s.constOffPtrSP(s.f.Config.Types.UInt32Ptr, argStart)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINT32], addr, argsize)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ACArgs = append(ACArgs, ssa.Param{Type: types.Types[types.TUINTPTR], Offset: int32(argStart) + int32(Widthptr)})
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
callArgs = append(callArgs, closure)
} else {
addr := s.constOffPtrSP(s.f.Config.Types.UintptrPtr, argStart+int64(Widthptr))
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINTPTR], addr, closure)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
stksize += 2 * int64(Widthptr)
argStart += 2 * int64(Widthptr)
}
// Set receiver (for interface calls).
if rcvr != nil {
addr := s.constOffPtrSP(s.f.Config.Types.UintptrPtr, argStart)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ACArgs = append(ACArgs, ssa.Param{Type: types.Types[types.TUINTPTR], Offset: int32(argStart)})
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
callArgs = append(callArgs, rcvr)
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINTPTR], addr, rcvr)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
// Write args.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := n.Left().Type()
args := n.Rlist().Slice()
if n.Op() == ir.OCALLMETH {
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
f := t.Recv()
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
ACArg, arg := s.putArg(args[0], f.Type, argStart+f.Offset, testLateExpansion)
ACArgs = append(ACArgs, ACArg)
callArgs = append(callArgs, arg)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
args = args[1:]
}
for i, n := range args {
f := t.Params().Field(i)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
ACArg, arg := s.putArg(n, f.Type, argStart+f.Offset, testLateExpansion)
ACArgs = append(ACArgs, ACArg)
callArgs = append(callArgs, arg)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
callArgs = append(callArgs, s.mem())
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
// call target
switch {
case k == callDefer:
cmd/compile: late call expansion for go func and simple defer func Passes run.bash and race.bash on darwin/amd64. Change-Id: Icbccaa2f2e7c3eac7c328c5253f331e598e11542 Reviewed-on: https://go-review.googlesource.com/c/go/+/247898 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-11 08:39:17 -04:00
aux := ssa.StaticAuxCall(deferproc, ACArgs, ACResults)
if testLateExpansion {
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
call.AddArgs(callArgs...)
} else {
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, aux, s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
case k == callGo:
cmd/compile: late call expansion for go func and simple defer func Passes run.bash and race.bash on darwin/amd64. Change-Id: Icbccaa2f2e7c3eac7c328c5253f331e598e11542 Reviewed-on: https://go-review.googlesource.com/c/go/+/247898 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-11 08:39:17 -04:00
aux := ssa.StaticAuxCall(newproc, ACArgs, ACResults)
if testLateExpansion {
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
call.AddArgs(callArgs...)
} else {
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, aux, s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
case closure != nil:
// rawLoad because loading the code pointer from a
// closure is always safe, but IsSanitizerSafeAddr
// can't always figure that out currently, and it's
// critical that we not clobber any arguments already
// stored onto the stack.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
codeptr = s.rawLoad(types.Types[types.TUINTPTR], closure)
cmd/compile: enable late expansion for closure calls This works for "normal" calls. Defer func() and Go func() still pending. RT calls still pending. Change-Id: I29cbdad8c877d12c08bbf7f3f0696611de877da9 Reviewed-on: https://go-review.googlesource.com/c/go/+/247771 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-10 18:30:11 -04:00
if testLateExpansion {
aux := ssa.ClosureAuxCall(ACArgs, ACResults)
call = s.newValue2A(ssa.OpClosureLECall, aux.LateExpansionResultType(), aux, codeptr, closure)
call.AddArgs(callArgs...)
} else {
call = s.newValue3A(ssa.OpClosureCall, types.TypeMem, ssa.ClosureAuxCall(ACArgs, ACResults), codeptr, closure, s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
case codeptr != nil:
cmd/compile: enable late expansion for interface calls Includes a few tweaks to Value.copyOf(a) (make it a no-op for a self-copy) and new pattern hack "___" (3 underscores) is like ellipsis, except the replacement doesn't need to have matching ellipsis/underscores. Moved the arg-length check in generated pattern-matching code BEFORE the args are probed, because not all instances of variable length OpFoo will have all the args mentioned in some rule for OpFoo, and when that happens, the compiler panics without the early check. Change-Id: I66de40672b3794a6427890ff96c805a488d783f4 Reviewed-on: https://go-review.googlesource.com/c/go/+/247537 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-07 22:46:43 -04:00
if testLateExpansion {
aux := ssa.InterfaceAuxCall(ACArgs, ACResults)
call = s.newValue1A(ssa.OpInterLECall, aux.LateExpansionResultType(), aux, codeptr)
call.AddArgs(callArgs...)
} else {
call = s.newValue2A(ssa.OpInterCall, types.TypeMem, ssa.InterfaceAuxCall(ACArgs, ACResults), codeptr, s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
case sym != nil:
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
aux := ssa.StaticAuxCall(sym.Linksym(), ACArgs, ACResults)
cmd/compile: enable late expansion for interface calls Includes a few tweaks to Value.copyOf(a) (make it a no-op for a self-copy) and new pattern hack "___" (3 underscores) is like ellipsis, except the replacement doesn't need to have matching ellipsis/underscores. Moved the arg-length check in generated pattern-matching code BEFORE the args are probed, because not all instances of variable length OpFoo will have all the args mentioned in some rule for OpFoo, and when that happens, the compiler panics without the early check. Change-Id: I66de40672b3794a6427890ff96c805a488d783f4 Reviewed-on: https://go-review.googlesource.com/c/go/+/247537 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-07 22:46:43 -04:00
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
call.AddArgs(callArgs...)
} else {
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, ssa.StaticAuxCall(sym.Linksym(), ACArgs, ACResults), s.mem())
}
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("bad call type %v %v", n.Op(), n)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
call.AuxInt = stksize // Call operations carry the argsize of the callee along with them
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
}
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
s.prevCall = call
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1I(ssa.OpSelectN, types.TypeMem, int64(len(ACResults)), call)
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
} else {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = call
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
}
cmd/compile: attach OVARLIVE nodes to OCALLxxx So we can insert theses OVARLIVE nodes right after OpStaticCall in SSA. This helps fixing issue that unsafe-uintptr arguments are not kept alive during return statement, or can be kept alive longer than expected. Fixes #24491 Change-Id: Ic04a5d1bbb5c90dcfae65bd95cdd1da393a66800 Reviewed-on: https://go-review.googlesource.com/c/go/+/254397 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-09-12 01:57:27 +07:00
// Insert OVARLIVE nodes
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.stmtList(n.Body())
cmd/compile: get rid of BlockCall No need for it, we can treat calls as (mostly) normal values that take a memory and return a memory. Lowers the number of basic blocks needed to represent a function. "go test -c net/http" uses 27% fewer basic blocks. Probably doesn't affect generated code much, but should help various passes whose running time and/or space depends on the number of basic blocks. Fixes #15631 Change-Id: I0bf21e123f835e2cfa382753955a4f8bce03dfa6 Reviewed-on: https://go-review.googlesource.com/28950 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-09 13:11:07 -07:00
// Finish block for defers
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
if k == callDefer || k == callDeferStack {
cmd/compile: get rid of BlockCall No need for it, we can treat calls as (mostly) normal values that take a memory and return a memory. Lowers the number of basic blocks needed to represent a function. "go test -c net/http" uses 27% fewer basic blocks. Probably doesn't affect generated code much, but should help various passes whose running time and/or space depends on the number of basic blocks. Fixes #15631 Change-Id: I0bf21e123f835e2cfa382753955a4f8bce03dfa6 Reviewed-on: https://go-review.googlesource.com/28950 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-09 13:11:07 -07:00
b := s.endBlock()
cmd/compile: fix defer/deferreturn Make sure we do any just-before-return cleanup on all paths out of a function, including when recovering. Each exit path should include deferreturn (if there are any defers) and then the exit code (e.g. copying heap-escaping return values back to the stack). Introduce a Defer SSA block type which has two outgoing edges - one the fallthrough edge (the defer was queued successfully) and one which immediately returns (the defer had a successful recover() call and normal execution should resume at the return point). Fixes #14725 Change-Id: Iad035c9fd25ef8b7a74dafbd7461cf04833d981f Reviewed-on: https://go-review.googlesource.com/20486 Reviewed-by: David Chase <drchase@google.com>
2016-03-09 19:27:57 -08:00
b.Kind = ssa.BlockDefer
cmd/compile: get rid of BlockCall No need for it, we can treat calls as (mostly) normal values that take a memory and return a memory. Lowers the number of basic blocks needed to represent a function. "go test -c net/http" uses 27% fewer basic blocks. Probably doesn't affect generated code much, but should help various passes whose running time and/or space depends on the number of basic blocks. Fixes #15631 Change-Id: I0bf21e123f835e2cfa382753955a4f8bce03dfa6 Reviewed-on: https://go-review.googlesource.com/28950 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-09 13:11:07 -07:00
b.SetControl(call)
bNext := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bNext)
// Add recover edge to exit code.
cmd/compile: fix defer/deferreturn Make sure we do any just-before-return cleanup on all paths out of a function, including when recovering. Each exit path should include deferreturn (if there are any defers) and then the exit code (e.g. copying heap-escaping return values back to the stack). Introduce a Defer SSA block type which has two outgoing edges - one the fallthrough edge (the defer was queued successfully) and one which immediately returns (the defer had a successful recover() call and normal execution should resume at the return point). Fixes #14725 Change-Id: Iad035c9fd25ef8b7a74dafbd7461cf04833d981f Reviewed-on: https://go-review.googlesource.com/20486 Reviewed-by: David Chase <drchase@google.com>
2016-03-09 19:27:57 -08:00
r := s.f.NewBlock(ssa.BlockPlain)
s.startBlock(r)
s.exit()
b.AddEdgeTo(r)
b.Likely = ssa.BranchLikely
cmd/compile: get rid of BlockCall No need for it, we can treat calls as (mostly) normal values that take a memory and return a memory. Lowers the number of basic blocks needed to represent a function. "go test -c net/http" uses 27% fewer basic blocks. Probably doesn't affect generated code much, but should help various passes whose running time and/or space depends on the number of basic blocks. Fixes #15631 Change-Id: I0bf21e123f835e2cfa382753955a4f8bce03dfa6 Reviewed-on: https://go-review.googlesource.com/28950 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-09 13:11:07 -07:00
s.startBlock(bNext)
cmd/compile: fix defer/deferreturn Make sure we do any just-before-return cleanup on all paths out of a function, including when recovering. Each exit path should include deferreturn (if there are any defers) and then the exit code (e.g. copying heap-escaping return values back to the stack). Introduce a Defer SSA block type which has two outgoing edges - one the fallthrough edge (the defer was queued successfully) and one which immediately returns (the defer had a successful recover() call and normal execution should resume at the return point). Fixes #14725 Change-Id: Iad035c9fd25ef8b7a74dafbd7461cf04833d981f Reviewed-on: https://go-review.googlesource.com/20486 Reviewed-by: David Chase <drchase@google.com>
2016-03-09 19:27:57 -08:00
}
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
cmd/compile: make Type.Field stricter about bounds checking Turns out there were only two call sites that expected t.Field(t.NumFields()) to return nil. Change-Id: I4679988d38ee9d7c9d89883537a17046717b2a77 Reviewed-on: https://go-review.googlesource.com/20731 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Crawshaw <crawshaw@golang.org>
2016-03-15 11:06:03 -07:00
if res.NumFields() == 0 || k != callNormal {
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
// call has no return value. Continue with the next statement.
return nil
}
cmd/compile: make Type.Field stricter about bounds checking Turns out there were only two call sites that expected t.Field(t.NumFields()) to return nil. Change-Id: I4679988d38ee9d7c9d89883537a17046717b2a77 Reviewed-on: https://go-review.googlesource.com/20731 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Crawshaw <crawshaw@golang.org>
2016-03-15 11:06:03 -07:00
fp := res.Field(0)
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
if returnResultAddr {
cmd/compile: enable late expansion for address-of static calls passes run.bash and race.bash (on Darwin-amd64) Change-Id: I2abda9636b681d050e85e88fc357ebe5220d2ba2 Reviewed-on: https://go-review.googlesource.com/c/go/+/246938 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-05 11:42:44 -04:00
pt := types.NewPtr(fp.Type)
if testLateExpansion {
return s.newValue1I(ssa.OpSelectNAddr, pt, 0, call)
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
return s.constOffPtrSP(pt, fp.Offset+base.Ctxt.FixedFrameSize())
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
}
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
if testLateExpansion {
return s.newValue1I(ssa.OpSelectN, fp.Type, 0, call)
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.load(n.Type(), s.constOffPtrSP(types.NewPtr(fp.Type), fp.Offset+base.Ctxt.FixedFrameSize()))
[dev.ssa] cmd/compile/internal/ssa: complete call ops OCALLINTER, as well as ODEFER/OPROC with OCALLMETH/OCALLINTER. Move all the call logic to its own routine, a lot of the code is shared. Change-Id: Ieac59596165e434cc6d1d7b5e46b78957e9c5ed3 Reviewed-on: https://go-review.googlesource.com/14464 Reviewed-by: Todd Neal <todd@tneal.org> Reviewed-by: David Chase <drchase@google.com>
2015-09-09 23:56:59 -07:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// maybeNilCheckClosure checks if a nil check of a closure is needed in some
// architecture-dependent situations and, if so, emits the nil check.
func (s *state) maybeNilCheckClosure(closure *ssa.Value, k callKind) {
if thearch.LinkArch.Family == sys.Wasm || objabi.GOOS == "aix" && k != callGo {
// On AIX, the closure needs to be verified as fn can be nil, except if it's a call go. This needs to be handled by the runtime to have the "go of nil func value" error.
// TODO(neelance): On other architectures this should be eliminated by the optimization steps
s.nilCheck(closure)
}
}
// getMethodClosure returns a value representing the closure for a method call
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) getMethodClosure(fn ir.Node) *ssa.Value {
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Make a name n2 for the function.
// fn.Sym might be sync.(*Mutex).Unlock.
// Make a PFUNC node out of that, then evaluate it.
// We get back an SSA value representing &sync.(*Mutex).Unlock·f.
// We can then pass that to defer or go.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
n2 := ir.NewNameAt(fn.Pos(), fn.Sym())
n2.Name().Curfn = s.curfn
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
n2.SetClass(ir.PFUNC)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// n2.Sym already existed, so it's already marked as a function.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
n2.SetPos(fn.Pos())
n2.SetType(types.Types[types.TUINT8]) // fake type for a static closure. Could use runtime.funcval if we had it.
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
return s.expr(n2)
}
// getClosureAndRcvr returns values for the appropriate closure and receiver of an
// interface call
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) getClosureAndRcvr(fn ir.Node) (*ssa.Value, *ssa.Value) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
i := s.expr(fn.Left())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
itab := s.newValue1(ssa.OpITab, types.Types[types.TUINTPTR], i)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
s.nilCheck(itab)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
itabidx := fn.Offset() + 2*int64(Widthptr) + 8 // offset of fun field in runtime.itab
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
closure := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.UintptrPtr, itabidx, itab)
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
rcvr := s.newValue1(ssa.OpIData, s.f.Config.Types.BytePtr, i)
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
return closure, rcvr
}
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
// etypesign returns the signed-ness of e, for integer/pointer etypes.
// -1 means signed, +1 means unsigned, 0 means non-integer/non-pointer.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func etypesign(e types.EType) int8 {
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
switch e {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TINT8, types.TINT16, types.TINT32, types.TINT64, types.TINT:
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
return -1
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TUINT8, types.TUINT16, types.TUINT32, types.TUINT64, types.TUINT, types.TUINTPTR, types.TUNSAFEPTR:
[dev.ssa] cmd/compile: use Copy instead of ConvNop The existing backend simply elides OCONVNOP. There's no reason for us to do any differently. Rather than insert ConvNops and then rewrite them away, stop creating them in the first place. Change-Id: I4bcbe2229fcebd189ae18df24f2c612feb6e215e Reviewed-on: https://go-review.googlesource.com/12810 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 14:31:25 -07:00
return +1
}
return 0
}
[dev.ssa] cmd/compile/internal/ssa: minor fixes * Improve some docs and logging. * Set correct type and len for indexing into strings. Fixes #11029. Change-Id: Ib22c45908e41ba3752010d2f5759e37e3921a48e Reviewed-on: https://go-review.googlesource.com/10635 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-02 09:16:22 -07:00
// addr converts the address of the expression n to SSA, adds it to s and returns the SSA result.
[dev.ssa] cmd/compile/internal/gc: Implement ODOT and ODOTPTR in addr. Change-Id: If8a9d5901fa2141d16b1c8d001761ea62bc23207 Reviewed-on: https://go-review.googlesource.com/12141 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-13 15:55:37 -07:00
// The value that the returned Value represents is guaranteed to be non-nil.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) addr(n ir.Node) *ssa.Value {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() != ir.ONAME {
s.pushLine(n.Pos())
cmd/compile: fix line numbers for index panics In the statement x = a[i], the index panic should appear to come from the line number of the '['. Previous to this CL we sometimes used the line number of the '=' instead. Fixes #29504 Change-Id: Ie718fd303c1ac2aee33e88d52c9ba9bcf220dea1 Reviewed-on: https://go-review.googlesource.com/c/go/+/174617 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-04-30 14:03:07 -07:00
defer s.popLine()
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := types.NewPtr(n.Type())
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ONAME:
cmd/compile: move Node.Class to flags Put it at position zero, since it is fairly hot. This shrinks gc.Node into a smaller size class on 64 bit systems. name old time/op new time/op delta Template 193ms ± 5% 192ms ± 3% ~ (p=0.353 n=94+93) Unicode 86.1ms ± 5% 85.0ms ± 4% -1.23% (p=0.000 n=95+98) GoTypes 546ms ± 3% 544ms ± 4% -0.40% (p=0.007 n=94+97) Compiler 2.56s ± 3% 2.54s ± 3% -0.67% (p=0.000 n=99+97) SSA 5.13s ± 2% 5.10s ± 3% -0.55% (p=0.000 n=94+98) Flate 122ms ± 6% 121ms ± 4% -0.75% (p=0.002 n=97+95) GoParser 144ms ± 5% 144ms ± 4% ~ (p=0.298 n=98+97) Reflect 348ms ± 4% 349ms ± 4% ~ (p=0.350 n=98+97) Tar 105ms ± 5% 104ms ± 5% ~ (p=0.154 n=96+98) XML 200ms ± 5% 198ms ± 4% -0.71% (p=0.015 n=97+98) [Geo mean] 330ms 328ms -0.52% name old user-time/op new user-time/op delta Template 229ms ±11% 224ms ± 7% -2.16% (p=0.001 n=100+87) Unicode 109ms ± 5% 109ms ± 6% ~ (p=0.897 n=96+91) GoTypes 712ms ± 4% 709ms ± 4% ~ (p=0.085 n=96+98) Compiler 3.41s ± 3% 3.36s ± 3% -1.43% (p=0.000 n=98+98) SSA 7.46s ± 3% 7.31s ± 3% -2.02% (p=0.000 n=100+99) Flate 145ms ± 6% 143ms ± 6% -1.11% (p=0.001 n=99+97) GoParser 177ms ± 5% 176ms ± 5% -0.78% (p=0.018 n=95+95) Reflect 432ms ± 7% 435ms ± 9% ~ (p=0.296 n=100+100) Tar 121ms ± 7% 121ms ± 5% ~ (p=0.072 n=100+95) XML 241ms ± 4% 239ms ± 5% ~ (p=0.085 n=97+99) [Geo mean] 413ms 410ms -0.73% name old alloc/op new alloc/op delta Template 38.4MB ± 0% 37.7MB ± 0% -1.85% (p=0.008 n=5+5) Unicode 30.1MB ± 0% 28.8MB ± 0% -4.09% (p=0.008 n=5+5) GoTypes 112MB ± 0% 110MB ± 0% -1.69% (p=0.008 n=5+5) Compiler 470MB ± 0% 461MB ± 0% -1.91% (p=0.008 n=5+5) SSA 1.13GB ± 0% 1.11GB ± 0% -1.70% (p=0.008 n=5+5) Flate 25.0MB ± 0% 24.6MB ± 0% -1.67% (p=0.008 n=5+5) GoParser 31.6MB ± 0% 31.1MB ± 0% -1.66% (p=0.008 n=5+5) Reflect 77.1MB ± 0% 75.8MB ± 0% -1.69% (p=0.008 n=5+5) Tar 26.3MB ± 0% 25.7MB ± 0% -2.06% (p=0.008 n=5+5) XML 41.9MB ± 0% 41.1MB ± 0% -1.93% (p=0.008 n=5+5) [Geo mean] 73.5MB 72.0MB -2.03% name old allocs/op new allocs/op delta Template 383k ± 0% 383k ± 0% ~ (p=0.690 n=5+5) Unicode 343k ± 0% 343k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=0.310 n=5+5) Compiler 4.43M ± 0% 4.42M ± 0% -0.17% (p=0.008 n=5+5) SSA 9.85M ± 0% 9.85M ± 0% ~ (p=0.310 n=5+5) Flate 236k ± 0% 236k ± 1% ~ (p=0.841 n=5+5) GoParser 320k ± 0% 320k ± 0% ~ (p=0.421 n=5+5) Reflect 988k ± 0% 987k ± 0% ~ (p=0.690 n=5+5) Tar 252k ± 0% 251k ± 0% ~ (p=0.095 n=5+5) XML 399k ± 0% 399k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 740k -0.07% Change-Id: I9e952b58a98e30a12494304db9ce50d0a85e459c Reviewed-on: https://go-review.googlesource.com/41797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Marvin Stenger <marvin.stenger94@gmail.com>
2017-04-25 18:14:12 -07:00
switch n.Class() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PEXTERN:
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
// global variable
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
v := s.entryNewValue1A(ssa.OpAddr, t, n.Sym().Linksym(), s.sb)
[dev.ssa] cmd/compile: respect Xoffset of static data Together with teaching SSA to generate static data, this fixes the encoding/pem and hash/adler32 tests. Change-Id: I75f81f6c995dcb9c6d99bd3acda94a4feea8b87b Reviewed-on: https://go-review.googlesource.com/12791 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 11:08:44 -07:00
// TODO: Make OpAddr use AuxInt as well as Aux.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Offset() != 0 {
v = s.entryNewValue1I(ssa.OpOffPtr, v.Type, n.Offset(), v)
[dev.ssa] cmd/compile: respect Xoffset of static data Together with teaching SSA to generate static data, this fixes the encoding/pem and hash/adler32 tests. Change-Id: I75f81f6c995dcb9c6d99bd3acda94a4feea8b87b Reviewed-on: https://go-review.googlesource.com/12791 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-28 11:08:44 -07:00
}
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return v
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PPARAM:
[dev.ssa] cmd/compile: addressed vars and closures Cleaned up first-block-in-function code. Added cases for |PHEAP for PPARAM and PAUTO. Made PPARAMOUT act more like PAUTO for purposes of address generation and vardef placement. Added cases for OCLOSUREVAR and Ops for getting closure pointer. Closure ops are scheduled at top of entry block to capture DX. Wrote test that seems to show proper behavior for addressed parameters, locals, and returns. Change-Id: Iee93ebf9e3d9f74cfb4d1c1da8038eb278d8a857 Reviewed-on: https://go-review.googlesource.com/14650 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-09-11 16:40:05 -04:00
// parameter slot
[dev.ssa] cmd/compile/ssa: add checks for nil args in values These additional checks were useful in tracking down the broken build (CL 11238). This CL does not fix the build, sadly. Change-Id: I34de3bed223f450aaa97c1cadaba2e4e5850050b Reviewed-on: https://go-review.googlesource.com/11681 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-29 11:56:28 -07:00
v := s.decladdrs[n]
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Conflicts: src/cmd/compile/internal/gc/racewalk.go src/cmd/internal/obj/stack.go src/cmd/internal/obj/x86/obj6.go src/runtime/stack.go test/nilptr3.go test/nosplit.go Change-Id: Ie6053eb1577fd73e8243651f25c0f1fc765ae660
2015-11-16 13:20:16 -08:00
if v != nil {
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return v
[dev.ssa] cmd/compile/ssa: add checks for nil args in values These additional checks were useful in tracking down the broken build (CL 11238). This CL does not fix the build, sadly. Change-Id: I34de3bed223f450aaa97c1cadaba2e4e5850050b Reviewed-on: https://go-review.googlesource.com/11681 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-29 11:56:28 -07:00
}
Revert "cmd/compile: cleanup nodpc and nodfp" This reverts commit dcac984b97470c4f047f0d3d87b0af40f5246ed2. Reason for revert: broke LR architectures (arm64, ppc64, s390x) Change-Id: I531d311c9053e81503c8c78d6cf044b318fc828b Reviewed-on: https://go-review.googlesource.com/99695 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-08 21:00:36 +00:00
if n == nodfp {
// Special arg that points to the frame pointer (Used by ORECOVER).
cmd/compile: add LocalAddr that takes SP,mem operands Lack of a well-defined order between VarDef and related address operations sometimes causes problems with store order and write barrier transformations; glitches in the order are made irreparable (by later optimizations) if the two parts of the glitch straddle a split in the original block caused by insertion of a write barrier diamond. Fix this by creating a LocalAddr for addresses of locals (what VarDef matters for) that takes a memory input to help make the order explicit. Addr is modified to only be legal for SB operand, so there is no overlap between Addr and LocalAddr uses (there may be some downstream cleanup from this). Changes to generic.rules and rewrite.go ensure that codegen tests continue to pass; CSE of LocalAddr is impaired, not quite sure of the cost. Fixes #26105. Change-Id: Id4192b4440aa4e9d7ba54a465c456df9b530b515 Reviewed-on: https://go-review.googlesource.com/122483 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-03 11:34:38 -04:00
return s.entryNewValue2A(ssa.OpLocalAddr, t, n, s.sp, s.startmem)
Revert "cmd/compile: cleanup nodpc and nodfp" This reverts commit dcac984b97470c4f047f0d3d87b0af40f5246ed2. Reason for revert: broke LR architectures (arm64, ppc64, s390x) Change-Id: I531d311c9053e81503c8c78d6cf044b318fc828b Reviewed-on: https://go-review.googlesource.com/99695 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-08 21:00:36 +00:00
}
[dev.ssa] Merge remote-tracking branch 'origin/master' into mergebranch Conflicts: src/cmd/compile/internal/gc/racewalk.go src/cmd/internal/obj/stack.go src/cmd/internal/obj/x86/obj6.go src/runtime/stack.go test/nilptr3.go test/nosplit.go Change-Id: Ie6053eb1577fd73e8243651f25c0f1fc765ae660
2015-11-16 13:20:16 -08:00
s.Fatalf("addr of undeclared ONAME %v. declared: %v", n, s.decladdrs)
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return nil
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PAUTO:
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
return s.newValue2Apos(ssa.OpLocalAddr, t, n, s.sp, s.mem(), !ir.IsAutoTmp(n))
cmd/compile: add LocalAddr that takes SP,mem operands Lack of a well-defined order between VarDef and related address operations sometimes causes problems with store order and write barrier transformations; glitches in the order are made irreparable (by later optimizations) if the two parts of the glitch straddle a split in the original block caused by insertion of a write barrier diamond. Fix this by creating a LocalAddr for addresses of locals (what VarDef matters for) that takes a memory input to help make the order explicit. Addr is modified to only be legal for SB operand, so there is no overlap between Addr and LocalAddr uses (there may be some downstream cleanup from this). Changes to generic.rules and rewrite.go ensure that codegen tests continue to pass; CSE of LocalAddr is impaired, not quite sure of the cost. Fixes #26105. Change-Id: Id4192b4440aa4e9d7ba54a465c456df9b530b515 Reviewed-on: https://go-review.googlesource.com/122483 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-03 11:34:38 -04:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PPARAMOUT: // Same as PAUTO -- cannot generate LEA early.
[dev.ssa] cmd/compile/internal/ssa: reuse symbols Reuse the ArgSymbol for nodes so that the Aux values will be equal for cse. Change-Id: Iaae80bd19ff2d3f51b6c9049fd860e04baa6f175 Reviewed-on: https://go-review.googlesource.com/15930 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Todd Neal <todd@tneal.org>
2015-10-15 20:25:32 -05:00
// ensure that we reuse symbols for out parameters so
// that cse works on their addresses
cmd/compile: add LocalAddr that takes SP,mem operands Lack of a well-defined order between VarDef and related address operations sometimes causes problems with store order and write barrier transformations; glitches in the order are made irreparable (by later optimizations) if the two parts of the glitch straddle a split in the original block caused by insertion of a write barrier diamond. Fix this by creating a LocalAddr for addresses of locals (what VarDef matters for) that takes a memory input to help make the order explicit. Addr is modified to only be legal for SB operand, so there is no overlap between Addr and LocalAddr uses (there may be some downstream cleanup from this). Changes to generic.rules and rewrite.go ensure that codegen tests continue to pass; CSE of LocalAddr is impaired, not quite sure of the cost. Fixes #26105. Change-Id: Id4192b4440aa4e9d7ba54a465c456df9b530b515 Reviewed-on: https://go-review.googlesource.com/122483 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-03 11:34:38 -04:00
return s.newValue2Apos(ssa.OpLocalAddr, t, n, s.sp, s.mem(), true)
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
default:
cmd/compile: replace classnames with Class.String Since the slice of names is almost exactly the same as what stringer is already generating for us. Passes toolstash -cmp on std cmd. Change-Id: I3f1e95efc690c0108236689e721627f00f79a461 Reviewed-on: https://go-review.googlesource.com/77190 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Dave Cheney <dave@cheney.net>
2017-11-10 18:35:30 +00:00
s.Fatalf("variable address class %v not implemented", n.Class())
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return nil
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ORESULT:
cmd/compile: add ORESULT, remove OINDREGSP This change is mostly cosmetic. OINDREGSP was used only for reading the results of a function call. In recognition of that fact, rename it to ORESULT. Along the way, trim down our handling of it to the bare minimum, and rely on the increased clarity of ORESULT to inline nodarg. Passes toolstash-check. Change-Id: I25b177df4ea54a8e94b1698d044c297b7e453c64 Reviewed-on: https://go-review.googlesource.com/c/go/+/170705 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-04-05 16:43:08 -07:00
// load return from callee
cmd/compile: enable late expansion for interface calls Includes a few tweaks to Value.copyOf(a) (make it a no-op for a self-copy) and new pattern hack "___" (3 underscores) is like ellipsis, except the replacement doesn't need to have matching ellipsis/underscores. Moved the arg-length check in generated pattern-matching code BEFORE the args are probed, because not all instances of variable length OpFoo will have all the args mentioned in some rule for OpFoo, and when that happens, the compiler panics without the early check. Change-Id: I66de40672b3794a6427890ff96c805a488d783f4 Reviewed-on: https://go-review.googlesource.com/c/go/+/247537 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-07 22:46:43 -04:00
if s.prevCall == nil || s.prevCall.Op != ssa.OpStaticLECall && s.prevCall.Op != ssa.OpInterLECall && s.prevCall.Op != ssa.OpClosureLECall {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constOffPtrSP(t, n.Offset())
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
which := s.prevCall.Aux.(*ssa.AuxCall).ResultForOffset(n.Offset())
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
if which == -1 {
// Do the old thing // TODO: Panic instead.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.constOffPtrSP(t, n.Offset())
cmd/compile: enable late call expansion for multiple results This does not work yet for SSA-able aggregates. Change-Id: Ib16b9c6158b25bb957145c5f934040b2bab9babd Reviewed-on: https://go-review.googlesource.com/c/go/+/245132 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-27 16:40:35 -04:00
}
x := s.newValue1I(ssa.OpSelectNAddr, t, which, s.prevCall)
return x
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OINDEX:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsSlice() {
a := s.expr(n.Left())
i := s.expr(n.Right())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpSliceLen, types.Types[types.TINT], a)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.boundsCheck(i, len, ssa.BoundsIndex, n.Bounded())
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
p := s.newValue1(ssa.OpSlicePtr, t, a)
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return s.newValue2(ssa.OpPtrIndex, t, p, i)
[dev.ssa] cmd/compile: implement OCAP And dependent fixes and misc cleanup. Co-hacking with josharian at Gophercon. Change-Id: Ib85dc13b303929017eb0a4d2fc2f603485f7479b Reviewed-on: https://go-review.googlesource.com/12027 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-10 10:47:28 -06:00
} else { // array
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a := s.addr(n.Left())
i := s.expr(n.Right())
len := s.constInt(types.Types[types.TINT], n.Left().Type().NumElem())
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.boundsCheck(i, len, ssa.BoundsIndex, n.Bounded())
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(ssa.OpPtrIndex, types.NewPtr(n.Left().Type().Elem()), a, i)
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODEREF:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.exprPtr(n.Left(), n.Bounded(), n.Pos())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOT:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.addr(n.Left())
return s.newValue1I(ssa.OpOffPtr, t, n.Offset(), p)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOTPTR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.exprPtr(n.Left(), n.Bounded(), n.Pos())
return s.newValue1I(ssa.OpOffPtr, t, n.Offset(), p)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCLOSUREVAR:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1I(ssa.OpOffPtr, t, n.Offset(),
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
s.entryNewValue0(ssa.OpGetClosurePtr, s.f.Config.Types.BytePtr))
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCONVNOP:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
addr := s.addr(n.Left())
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return s.newValue1(ssa.OpCopy, t, addr) // ensure that addr has the right type
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCALLFUNC, ir.OCALLINTER, ir.OCALLMETH:
cmd/compile: make translation to calls for SSA look more "value-oriented" The existing translation assumes an in-memory return values, thus it returns the address of the result(s). Most consumers immediately load from the address to get the value, and in late call expansion that is the favored idiom, and it is also the favored idiom when arguments and results use registers instead of memory. Change-Id: Ie0ccc70f399682a42509d847b330ef3956462d56 Reviewed-on: https://go-review.googlesource.com/c/go/+/240186 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-26 18:19:01 -04:00
return s.callAddr(n, callNormal)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.ODOTTYPE:
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
v, _ := s.dottype(n, false)
if v.Op != ssa.OpLoad {
s.Fatalf("dottype of non-load")
}
if v.Args[1] != s.mem() {
s.Fatalf("memory no longer live from dottype load")
}
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return v.Args[0]
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
default:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.Fatalf("unhandled addr %v", n.Op())
cmd/compile: get rid of "volatile" in SSA A value is "volatile" if it is a pointer to the argument region on stack which will be clobbered by function call. This is used to make sure the value is safe when inserting write barrier calls. The writebarrier pass can tell whether a value is such a pointer. Therefore no need to mark it when building SSA and thread this information through. Passes "toolstash -cmp" on std. Updates #17583. Change-Id: Idc5fc0d710152b94b3c504ce8db55ea9ff5b5195 Reviewed-on: https://go-review.googlesource.com/36835 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 19:47:59 -05:00
return nil
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
}
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
// canSSA reports whether n is SSA-able.
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// n must be an ONAME (or an ODOT sequence with an ONAME base).
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) canSSA(n ir.Node) bool {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.N != 0 {
cmd/compile: don't SSA any variables when -N Turn SSAing of variables off when compiling with optimizations off. This helps keep variable names around that would otherwise be optimized away. Fixes #14744 Change-Id: I31db8cf269c068c7c5851808f13e5955a09810ca Reviewed-on: https://go-review.googlesource.com/22681 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-04-29 12:09:32 -07:00
return false
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for n.Op() == ir.ODOT || (n.Op() == ir.OINDEX && n.Left().Type().IsArray()) {
n = n.Left()
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() != ir.ONAME {
[dev.ssa] cmd/compile/internal/ssa: Initial implementation of memory zeroing This will make it possible for us to start implementing interfaces and other stack allocated types which are more than one machine word. Change-Id: I52b187a791cf1919cb70ed6dabdc9f57b317ea83 Reviewed-on: https://go-review.googlesource.com/11631 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-27 15:45:20 +01:00
return false
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Name().Addrtaken() {
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
return false
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if isParamHeapCopy(n) {
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
return false
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.PAUTOHEAP {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("canSSA of PAUTOHEAP %v", n)
cmd/compile: fix liveness computation for heap-escaped parameters The liveness computation of parameters generally was never correct, but forcing all parameters to be live throughout the function covered up that problem. The new SSA back end is too clever: even though it currently keeps the parameter values live throughout the function, it may find optimizations that mean the current values are not written back to the original parameter stack slots immediately or ever (for example if a parameter is set to nil, SSA constant propagation may replace all later uses of the parameter with a constant nil, eliminating the need to write the nil value back to the stack slot), so the liveness code must now track the actual operations on the stack slots, exposing these problems. One small problem in the handling of arguments is that nodarg can return ONAME PPARAM nodes with adjusted offsets, so that there are actually multiple *Node pointers for the same parameter in the instruction stream. This might be possible to correct, but not in this CL. For now, we fix this by using n.Orig instead of n when considering PPARAM and PPARAMOUT nodes. The major problem in the handling of arguments is general confusion in the liveness code about the meaning of PPARAM|PHEAP and PPARAMOUT|PHEAP nodes, especially as contrasted with PAUTO|PHEAP. The difference between these two is that when a local variable "moves" to the heap, it's really just allocated there to start with; in contrast, when an argument moves to the heap, the actual data has to be copied there from the stack at the beginning of the function, and when a result "moves" to the heap the value in the heap has to be copied back to the stack when the function returns This general confusion is also present in the SSA back end. The PHEAP bit worked decently when I first introduced it 7 years ago (!) in 391425ae. The back end did nothing sophisticated, and in particular there was no analysis at all: no escape analysis, no liveness analysis, and certainly no SSA back end. But the complications caused in the various downstream consumers suggest that this should be a detail kept mainly in the front end. This CL therefore eliminates both the PHEAP bit and even the idea of "heap variables" from the back ends. First, it replaces the PPARAM|PHEAP, PPARAMOUT|PHEAP, and PAUTO|PHEAP variable classes with the single PAUTOHEAP, a pseudo-class indicating a variable maintained on the heap and available by indirecting a local variable kept on the stack (a plain PAUTO). Second, walkexpr replaces all references to PAUTOHEAP variables with indirections of the corresponding PAUTO variable. The back ends and the liveness code now just see plain indirected variables. This may actually produce better code, but the real goal here is to eliminate these little-used and somewhat suspect code paths in the back end analyses. The OPARAM node type goes away too. A followup CL will do the same to PPARAMREF. I'm not sure that the back ends (SSA in particular) are handling those right either, and with the framework established in this CL that change is trivial and the result clearly more correct. Fixes #15747. Change-Id: I2770b1ce3cbc93981bfc7166be66a9da12013d74 Reviewed-on: https://go-review.googlesource.com/23393 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-05-25 01:33:24 -04:00
}
cmd/compile: move Node.Class to flags Put it at position zero, since it is fairly hot. This shrinks gc.Node into a smaller size class on 64 bit systems. name old time/op new time/op delta Template 193ms ± 5% 192ms ± 3% ~ (p=0.353 n=94+93) Unicode 86.1ms ± 5% 85.0ms ± 4% -1.23% (p=0.000 n=95+98) GoTypes 546ms ± 3% 544ms ± 4% -0.40% (p=0.007 n=94+97) Compiler 2.56s ± 3% 2.54s ± 3% -0.67% (p=0.000 n=99+97) SSA 5.13s ± 2% 5.10s ± 3% -0.55% (p=0.000 n=94+98) Flate 122ms ± 6% 121ms ± 4% -0.75% (p=0.002 n=97+95) GoParser 144ms ± 5% 144ms ± 4% ~ (p=0.298 n=98+97) Reflect 348ms ± 4% 349ms ± 4% ~ (p=0.350 n=98+97) Tar 105ms ± 5% 104ms ± 5% ~ (p=0.154 n=96+98) XML 200ms ± 5% 198ms ± 4% -0.71% (p=0.015 n=97+98) [Geo mean] 330ms 328ms -0.52% name old user-time/op new user-time/op delta Template 229ms ±11% 224ms ± 7% -2.16% (p=0.001 n=100+87) Unicode 109ms ± 5% 109ms ± 6% ~ (p=0.897 n=96+91) GoTypes 712ms ± 4% 709ms ± 4% ~ (p=0.085 n=96+98) Compiler 3.41s ± 3% 3.36s ± 3% -1.43% (p=0.000 n=98+98) SSA 7.46s ± 3% 7.31s ± 3% -2.02% (p=0.000 n=100+99) Flate 145ms ± 6% 143ms ± 6% -1.11% (p=0.001 n=99+97) GoParser 177ms ± 5% 176ms ± 5% -0.78% (p=0.018 n=95+95) Reflect 432ms ± 7% 435ms ± 9% ~ (p=0.296 n=100+100) Tar 121ms ± 7% 121ms ± 5% ~ (p=0.072 n=100+95) XML 241ms ± 4% 239ms ± 5% ~ (p=0.085 n=97+99) [Geo mean] 413ms 410ms -0.73% name old alloc/op new alloc/op delta Template 38.4MB ± 0% 37.7MB ± 0% -1.85% (p=0.008 n=5+5) Unicode 30.1MB ± 0% 28.8MB ± 0% -4.09% (p=0.008 n=5+5) GoTypes 112MB ± 0% 110MB ± 0% -1.69% (p=0.008 n=5+5) Compiler 470MB ± 0% 461MB ± 0% -1.91% (p=0.008 n=5+5) SSA 1.13GB ± 0% 1.11GB ± 0% -1.70% (p=0.008 n=5+5) Flate 25.0MB ± 0% 24.6MB ± 0% -1.67% (p=0.008 n=5+5) GoParser 31.6MB ± 0% 31.1MB ± 0% -1.66% (p=0.008 n=5+5) Reflect 77.1MB ± 0% 75.8MB ± 0% -1.69% (p=0.008 n=5+5) Tar 26.3MB ± 0% 25.7MB ± 0% -2.06% (p=0.008 n=5+5) XML 41.9MB ± 0% 41.1MB ± 0% -1.93% (p=0.008 n=5+5) [Geo mean] 73.5MB 72.0MB -2.03% name old allocs/op new allocs/op delta Template 383k ± 0% 383k ± 0% ~ (p=0.690 n=5+5) Unicode 343k ± 0% 343k ± 0% ~ (p=0.841 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=0.310 n=5+5) Compiler 4.43M ± 0% 4.42M ± 0% -0.17% (p=0.008 n=5+5) SSA 9.85M ± 0% 9.85M ± 0% ~ (p=0.310 n=5+5) Flate 236k ± 0% 236k ± 1% ~ (p=0.841 n=5+5) GoParser 320k ± 0% 320k ± 0% ~ (p=0.421 n=5+5) Reflect 988k ± 0% 987k ± 0% ~ (p=0.690 n=5+5) Tar 252k ± 0% 251k ± 0% ~ (p=0.095 n=5+5) XML 399k ± 0% 399k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 740k -0.07% Change-Id: I9e952b58a98e30a12494304db9ce50d0a85e459c Reviewed-on: https://go-review.googlesource.com/41797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Marvin Stenger <marvin.stenger94@gmail.com>
2017-04-25 18:14:12 -07:00
switch n.Class() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PEXTERN:
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
return false
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.PPARAMOUT:
cmd/compile: move hasdefer to Func Passes toolstash -cmp. Updates #15756 Change-Id: Ia071dbbd7f2ee0f8433d8c37af4f7b588016244e Reviewed-on: https://go-review.googlesource.com/38231 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-15 22:55:21 -07:00
if s.hasdefer {
all: remove some double spaces from comments Went mainly for the ones that make no sense, such as the ones mid-sentence or after commas. Change-Id: Ie245d2c19cc7428a06295635cf6a9482ade25ff0 Reviewed-on: https://go-review.googlesource.com/57293 Reviewed-by: Ian Lance Taylor <iant@golang.org> Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-08-19 22:33:51 +02:00
// TODO: handle this case? Named return values must be
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
// in memory so that the deferred function can see them.
// Maybe do: if !strings.HasPrefix(n.String(), "~") { return false }
cmd/compile: make sure output params are live if there is a defer If there is a defer, and that defer recovers, then the caller can see all of the output parameters. That means that we must mark all the output parameters live at any point which might panic. If there is no defer then this is not necessary. This is implemented. We could also detect whether there is a recover in any of the defers. If not, we would need to mark only output params that the defer actually references (and the closure mechanism already does that). This is not implemented. Fixes #18860. Change-Id: If984fe6686eddce9408bf25e725dd17fc16b8578 Reviewed-on: https://go-review.googlesource.com/36030 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Russ Cox <rsc@golang.org>
2017-01-30 14:55:12 -08:00
// Or maybe not, see issue 18860. Even unnamed return values
// must be written back so if a defer recovers, the caller can see them.
[dev.ssa] cmd/compile: Make PPARAMOUT variables SSAable Add writeback code to each return location which copies the final result back to the correct stack location. Cgo plays tricky games by taking the address of a in f(a int) (b int) and then using that address to modify b. So for cgo-generated Go code, disable the SSAing of output args. Update #14511 Change-Id: I95cba727d53699d31124eef41db0e03935862be9 Reviewed-on: https://go-review.googlesource.com/19988 Reviewed-by: Todd Neal <todd@tneal.org> Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-02-27 17:49:31 -08:00
return false
}
if s.cgoUnsafeArgs {
// Cgo effectively takes the address of all result args,
// but the compiler can't see that.
return false
}
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Class() == ir.PPARAM && n.Sym() != nil && n.Sym().Name == ".this" {
[dev.ssa] cmd/compile/internal/ssa: implement ORETJMP Change-Id: I352c7b9aab053959bc74c15861339e1dbe545ddc Reviewed-on: https://go-review.googlesource.com/14404 Reviewed-by: David Chase <drchase@google.com>
2015-09-08 21:28:44 -07:00
// wrappers generated by genwrapper need to update
// the .this pointer in place.
cmd/compile: delay expansion of OpArg until expand_calls As it says, delay expanpsion of OpArg to the expand_calls phase, to enable (eventually) interprocedural SSA optimizations, and (sooner) change to a register ABI. Includes a round of cleanup to function names and comments, largely to match the expanded scope of the functions. This CL removes the per-function dependence on GOSSAHASH, but the go116lateCallExpansion kill switch remains (and was tested locally to ensure it worked). Two functions in expand_calls.go that performed overlapping things were combined into a single function that is called twice. Fixes #42236. For #40724. Change-Id: Icbb78947eaa39f17f2c1210d5c2caef20abd6571 Reviewed-on: https://go-review.googlesource.com/c/go/+/262117 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-13 19:24:04 -04:00
// TODO: treat as a PPARAMOUT?
[dev.ssa] cmd/compile/internal/ssa: implement ORETJMP Change-Id: I352c7b9aab053959bc74c15861339e1dbe545ddc Reviewed-on: https://go-review.googlesource.com/14404 Reviewed-by: David Chase <drchase@google.com>
2015-09-08 21:28:44 -07:00
return false
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return canSSAType(n.Type())
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
// TODO: try to make more variables SSAable?
}
// canSSA reports whether variables of type t are SSA-able.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func canSSAType(t *types.Type) bool {
cmd/compile: add sizeCalculationDisabled flag Use it to ensure that dowidth is not called from the backend on a type whose size has not yet been calculated. This is an alternative to CL 42016. Change-Id: I8c7b4410ee4c2a68573102f6b9b635f4fdcf392e Reviewed-on: https://go-review.googlesource.com/42018 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 16:37:25 -07:00
dowidth(t)
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
if t.Width > int64(4*Widthptr) {
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// 4*Widthptr is an arbitrary constant. We want it
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
// to be at least 3*Widthptr so slices can be registerized.
// Too big and we'll introduce too much register pressure.
return false
}
switch t.Etype {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TARRAY:
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
// We can't do larger arrays because dynamic indexing is
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
// not supported on SSA variables.
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
// TODO: allow if all indexes are constant.
cmd/compile: only SSA [0]T when T is SSA-able Almost never happens in practice. The compiler will generate reasonable code anyway, since assignments involving [0]T never do any work. Fixes #19696 Fixes #19671 Change-Id: I350d2e0c5bb326c4789c74a046ab0486b2cee49c Reviewed-on: https://go-review.googlesource.com/38599 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-24 09:36:31 -07:00
if t.NumElem() <= 1 {
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
return canSSAType(t.Elem())
}
[dev.ssa] cmd/compile/internal/ssa: Initial implementation of memory zeroing This will make it possible for us to start implementing interfaces and other stack allocated types which are more than one machine word. Change-Id: I52b187a791cf1919cb70ed6dabdc9f57b317ea83 Reviewed-on: https://go-review.googlesource.com/11631 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-27 15:45:20 +01:00
return false
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case types.TSTRUCT:
cmd/compile: eliminate NumFields wrapper functions Change-Id: I3c6035559288cfdc33857216f50241b81932c8a4 Reviewed-on: https://go-review.googlesource.com/20811 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-17 13:26:08 -07:00
if t.NumFields() > ssa.MaxStruct {
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
return false
}
cmd/compile: eliminate a bunch of IterFields/IterMethods calls This is an automated rewrite of all the calls of the form: for f, it := IterFields(t); f != nil; f = it.Next() { ... } Followup CLs will work on cleaning up the remaining cases. Change-Id: Ic1005ad45ae0b50c63e815e34e507e2d2644ba1a Reviewed-on: https://go-review.googlesource.com/20794 Reviewed-by: David Crawshaw <crawshaw@golang.org>
2016-03-17 01:32:18 -07:00
for _, t1 := range t.Fields().Slice() {
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
if !canSSAType(t1.Type) {
return false
}
}
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
return true
[dev.ssa] cmd/compile: add decompose pass Decompose breaks compound objects up into pieces that can be operated on by the target architecture. The decompose pass only does phi ops, the rest is done by the rewrite rules in generic.rules. Compound objects include strings,slices,interfaces,structs,arrays. Arrays aren't decomposed because of indexing (we could support constant indexes, but dynamic indexes can't be handled using SSA). Structs will come in a subsequent CL. TODO: after this pass we have lost the association between, e.g., a string's pointer and its size. It would be nice if we could keep that information around for debugging info somehow. Change-Id: I6379ab962a7beef62297d0f68c421f22aa0a0901 Reviewed-on: https://go-review.googlesource.com/13683 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 10:26:28 -07:00
default:
return true
[dev.ssa] cmd/compile/internal/ssa: Initial implementation of memory zeroing This will make it possible for us to start implementing interfaces and other stack allocated types which are more than one machine word. Change-Id: I52b187a791cf1919cb70ed6dabdc9f57b317ea83 Reviewed-on: https://go-review.googlesource.com/11631 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-27 15:45:20 +01:00
}
[dev.ssa] cmd/compile/internal/ssa: add call opcodes Add calls, particularly closure calls. Reorg SSAable variable test for converting to SSA. Change-Id: Ia75c04295e6b0b040122f97e2381836a393b7f42 Reviewed-on: https://go-review.googlesource.com/10912 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-10 15:03:06 -07:00
}
cmd/compile: don't nilcheck newobject and return values from mapaccess{1,2} They are guaranteed to be non-nil, no point in inserting nil checks for them. Fixes #15390 Change-Id: I3b9a0f2319affc2139dcc446d0a56c6785ae5a86 Reviewed-on: https://go-review.googlesource.com/22291 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-04-19 21:06:53 -07:00
// exprPtr evaluates n to a pointer and nil-checks it.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) exprPtr(n ir.Node, bounded bool, lineno src.XPos) *ssa.Value {
cmd/compile: don't nilcheck newobject and return values from mapaccess{1,2} They are guaranteed to be non-nil, no point in inserting nil checks for them. Fixes #15390 Change-Id: I3b9a0f2319affc2139dcc446d0a56c6785ae5a86 Reviewed-on: https://go-review.googlesource.com/22291 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-04-19 21:06:53 -07:00
p := s.expr(n)
cmd/compile: pack bool fields in Node, Name, Func and Type structs to bitsets This reduces compiler memory usage by up to 4% - see compilebench results below. name old time/op new time/op delta Template 245ms ± 4% 241ms ± 2% -1.88% (p=0.029 n=10+10) Unicode 126ms ± 3% 124ms ± 3% ~ (p=0.105 n=10+10) GoTypes 805ms ± 2% 813ms ± 3% ~ (p=0.515 n=8+10) Compiler 3.95s ± 2% 3.83s ± 1% -2.96% (p=0.000 n=9+10) MakeBash 47.4s ± 4% 46.6s ± 1% -1.59% (p=0.028 n=9+10) name old user-ns/op new user-ns/op delta Template 324M ± 5% 326M ± 3% ~ (p=0.935 n=10+10) Unicode 186M ± 5% 178M ±10% ~ (p=0.067 n=9+10) GoTypes 1.08G ± 7% 1.09G ± 4% ~ (p=0.956 n=10+10) Compiler 5.34G ± 4% 5.31G ± 1% ~ (p=0.501 n=10+8) name old alloc/op new alloc/op delta Template 41.0MB ± 0% 39.8MB ± 0% -3.03% (p=0.000 n=10+10) Unicode 32.3MB ± 0% 31.0MB ± 0% -4.13% (p=0.000 n=10+10) GoTypes 119MB ± 0% 116MB ± 0% -2.39% (p=0.000 n=10+10) Compiler 499MB ± 0% 487MB ± 0% -2.48% (p=0.000 n=10+10) name old allocs/op new allocs/op delta Template 380k ± 1% 379k ± 1% ~ (p=0.436 n=10+10) Unicode 324k ± 1% 324k ± 0% ~ (p=0.853 n=10+10) GoTypes 1.15M ± 0% 1.15M ± 0% ~ (p=0.481 n=10+10) Compiler 4.41M ± 0% 4.41M ± 0% -0.12% (p=0.007 n=10+10) name old text-bytes new text-bytes delta HelloSize 623k ± 0% 623k ± 0% ~ (all equal) CmdGoSize 6.64M ± 0% 6.64M ± 0% ~ (all equal) name old data-bytes new data-bytes delta HelloSize 5.81k ± 0% 5.81k ± 0% ~ (all equal) CmdGoSize 238k ± 0% 238k ± 0% ~ (all equal) name old bss-bytes new bss-bytes delta HelloSize 134k ± 0% 134k ± 0% ~ (all equal) CmdGoSize 152k ± 0% 152k ± 0% ~ (all equal) name old exe-bytes new exe-bytes delta HelloSize 967k ± 0% 967k ± 0% ~ (all equal) CmdGoSize 10.2M ± 0% 10.2M ± 0% ~ (all equal) Change-Id: I1f40af738254892bd6c8ba2eb43390b175753d52 Reviewed-on: https://go-review.googlesource.com/37445 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-02-27 19:56:38 +02:00
if bounded || n.NonNil() {
cmd/compile: move Frontend field from ssa.Config to ssa.Func Suggested by mdempsky in CL 38232. This allows us to use the Frontend field to associate frontend state and information with a function. See the following CL in the series for examples. This is a giant CL, but it is almost entirely routine refactoring. The ssa test API is starting to feel a bit unwieldy. I will clean it up separately, once the dust has settled. Passes toolstash -cmp. Updates #15756 Change-Id: I71c573bd96ff7251935fce1391b06b1f133c3caf Reviewed-on: https://go-review.googlesource.com/38327 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-16 22:42:10 -07:00
if s.f.Frontend().Debug_checknil() && lineno.Line() > 1 {
s.f.Warnl(lineno, "removed nil check")
cmd/compile: don't nilcheck newobject and return values from mapaccess{1,2} They are guaranteed to be non-nil, no point in inserting nil checks for them. Fixes #15390 Change-Id: I3b9a0f2319affc2139dcc446d0a56c6785ae5a86 Reviewed-on: https://go-review.googlesource.com/22291 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-04-19 21:06:53 -07:00
}
return p
}
s.nilCheck(p)
return p
}
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
// nilCheck generates nil pointer checking code.
[dev.ssa] cmd/compile: minor cleanup Cull dead code. Add TODOs. Change-Id: I81d24371de47f5a27d3a3a0ec0ef5baaf6814c06 Reviewed-on: https://go-review.googlesource.com/12659 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2015-07-24 11:55:52 -07:00
// Used only for automatically inserted nil checks,
// not for user code like 'x != nil'.
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
func (s *state) nilCheck(ptr *ssa.Value) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if base.Debug.DisableNil != 0 || s.curfn.Func().NilCheckDisabled() {
[dev.ssa] cmd/compile: make failed nil checks panic Introduce pseudo-ops PanicMem and LoweredPanicMem. PanicMem could be rewritten directly into MOVL during lowering, but then we couldn't log nil checks. With this change, runnable nil check tests pass: GOSSAPKG=main go run run.go -- nil*.go Compiler output nil check tests fail: GOSSAPKG=p go run run.go -- nil*.go This is due to several factors: * SSA has improved elimination of unnecessary nil checks. * SSA is missing elimination of implicit nil checks. * SSA is missing extra logging about why nil checks were removed. I'm not sure how best to resolve these failures, particularly in a world in which the two backends will live side by side for some time. For now, punt on the problem. Change-Id: Ib2ca6824551671f92e0e1800b036f5ca0905e2a3 Reviewed-on: https://go-review.googlesource.com/13474 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-11 09:47:45 -07:00
return
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
s.newValue2(ssa.OpNilCheck, types.TypeVoid, ptr, s.mem())
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// boundsCheck generates bounds checking code. Checks if 0 <= idx <[=] len, branches to exit if not.
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
// Starts a new block on return.
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// On input, len must be converted to full int width and be nonnegative.
// Returns idx converted to full int width.
// If bounded is true then caller guarantees the index is not out of bounds
// (but boundsCheck will still extend the index to full int width).
func (s *state) boundsCheck(idx, len *ssa.Value, kind ssa.BoundsKind, bounded bool) *ssa.Value {
idx = s.extendIndex(idx, len, kind, bounded)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if bounded || base.Flag.B != 0 {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// If bounded or bounds checking is flag-disabled, then no check necessary,
// just return the extended index.
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
//
// Here, bounded == true if the compiler generated the index itself,
// such as in the expansion of a slice initializer. These indexes are
// compiler-generated, not Go program variables, so they cannot be
// attacker-controlled, so we can omit Spectre masking as well.
//
// Note that we do not want to omit Spectre masking in code like:
//
// if 0 <= i && i < len(x) {
// use(x[i])
// }
//
// Lucky for us, bounded==false for that code.
// In that case (handled below), we emit a bound check (and Spectre mask)
// and then the prove pass will remove the bounds check.
// In theory the prove pass could potentially remove certain
// Spectre masks, but it's very delicate and probably better
// to be conservative and leave them all in.
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
return idx
[dev.ssa] cmd/compile: implement more panic stuff Implement index check panics (and slice check panics, for when we need those). Clean up nil check. Now that the new regalloc is in we can use the register we just tested as the address 0 destination. Remove jumps after panic calls, they are unreachable. Change-Id: Ifee6e510cdea49cc7c7056887e4f06c67488d491 Reviewed-on: https://go-review.googlesource.com/13687 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-18 15:25:40 -07:00
}
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
bNext := s.f.NewBlock(ssa.BlockPlain)
bPanic := s.f.NewBlock(ssa.BlockExit)
if !idx.Type.IsSigned() {
switch kind {
case ssa.BoundsIndex:
kind = ssa.BoundsIndexU
case ssa.BoundsSliceAlen:
kind = ssa.BoundsSliceAlenU
case ssa.BoundsSliceAcap:
kind = ssa.BoundsSliceAcapU
case ssa.BoundsSliceB:
kind = ssa.BoundsSliceBU
case ssa.BoundsSlice3Alen:
kind = ssa.BoundsSlice3AlenU
case ssa.BoundsSlice3Acap:
kind = ssa.BoundsSlice3AcapU
case ssa.BoundsSlice3B:
kind = ssa.BoundsSlice3BU
case ssa.BoundsSlice3C:
kind = ssa.BoundsSlice3CU
}
}
var cmp *ssa.Value
if kind == ssa.BoundsIndex || kind == ssa.BoundsIndexU {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp = s.newValue2(ssa.OpIsInBounds, types.Types[types.TBOOL], idx, len)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp = s.newValue2(ssa.OpIsSliceInBounds, types.Types[types.TBOOL], idx, len)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
}
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(cmp)
b.Likely = ssa.BranchLikely
b.AddEdgeTo(bNext)
b.AddEdgeTo(bPanic)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.startBlock(bPanic)
if thearch.LinkArch.Family == sys.Wasm {
// TODO(khr): figure out how to do "register" based calling convention for bounds checks.
// Should be similar to gcWriteBarrier, but I can't make it work.
s.rtcall(BoundsCheckFunc[kind], false, nil, idx, len)
} else {
mem := s.newValue3I(ssa.OpPanicBounds, types.TypeMem, int64(kind), idx, len, s.mem())
s.endBlock().SetControl(mem)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.startBlock(bNext)
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
// In Spectre index mode, apply an appropriate mask to avoid speculative out-of-bounds accesses.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.Cfg.SpectreIndex {
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
op := ssa.OpSpectreIndex
if kind != ssa.BoundsIndex && kind != ssa.BoundsIndexU {
op = ssa.OpSpectreSliceIndex
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
idx = s.newValue2(op, types.Types[types.TINT], idx, len)
cmd/compile: add spectre mitigation mode enabled by -spectre This commit adds a new cmd/compile flag -spectre, which accepts a comma-separated list of possible Spectre mitigations to apply, or the empty string (none), or "all". The only known mitigation right now is "index", which uses conditional moves to ensure that x86-64 CPUs do not speculate past index bounds checks. Speculating past index bounds checks may be problematic on systems running privileged servers that accept requests from untrusted users who can execute their own programs on the same machine. (And some more constraints that make it even more unlikely in practice.) The cases this protects against are analogous to the ones Microsoft explains in the "Array out of bounds load/store feeding ..." sections here: https://docs.microsoft.com/en-us/cpp/security/developer-guidance-speculative-execution?view=vs-2019#array-out-of-bounds-load-feeding-an-indirect-branch Change-Id: Ib7532d7e12466b17e04c4e2075c2a456dc98f610 Reviewed-on: https://go-review.googlesource.com/c/go/+/222660 Reviewed-by: Keith Randall <khr@golang.org>
2020-01-06 10:31:39 -05:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
return idx
[dev.ssa] cmd/compile: implement OSLICESTR Add a new function and generic operation to handle bounds checking for slices. Unlike the index bounds checking the index can be equal to the upper bound. Do gc-friendly slicing that generates proper code for 0-length result slices. This is a takeover of Alexandru's original change, (https://go-review.googlesource.com/#/c/12764/) submittable now that the decompose phase is in. Change-Id: I17d164cf42ed7839f84ca949c6ad3289269c9160 Reviewed-on: https://go-review.googlesource.com/13903 Reviewed-by: David Chase <drchase@google.com>
2015-08-24 23:52:03 -07:00
}
[dev.ssa] cmd/compile: handle Div, Convert, GetClosurePtr etc. on ARM This CL adds support of Div, Mod, Convert, GetClosurePtr and 64-bit indexing support to SSA backend for ARM. Add tests for 64-bit indexing to cmd/compile/internal/gc/testdata/string_ssa.go. Tests cmd/compile/internal/gc/testdata/*_ssa.go passed, except compound_ssa.go and fp_ssa.go. Progress on SSA for ARM. Still not complete. Essentially the only unsupported part is floating point. Updates #15365. Change-Id: I269e88b67f641c25e7a813d910c96d356d236bff Reviewed-on: https://go-review.googlesource.com/23542 Reviewed-by: David Chase <drchase@google.com>
2016-05-25 09:49:28 -04:00
// If cmp (a bool) is false, panic using the given function.
cmd/compile/internal/gc: stop exporting *gc.Sym-typed globals The arch-specific SSA backends now no longer use gc.Sym either. Passes toolstash -cmp. Change-Id: Ic13b934b92a1b89b4b79c6c4796ab0a137608163 Reviewed-on: https://go-review.googlesource.com/36416 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-02-06 13:40:19 -08:00
func (s *state) check(cmp *ssa.Value, fn *obj.LSym) {
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(cmp)
[dev.ssa] cmd/compile: initial implementation of likely direction Change-Id: Id8457b18c07bf717d13c9423d8f314f253eee64f Reviewed-on: https://go-review.googlesource.com/13580 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-11 17:28:56 -07:00
b.Likely = ssa.BranchLikely
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
bNext := s.f.NewBlock(ssa.BlockPlain)
[dev.inline] cmd/compile/internal/ssa: rename various fields from Line to Pos This is a mostly mechanical rename followed by manual fixes where necessary. Change-Id: Ie5c670b133db978f15dc03e50dc2da0c80fc8842 Reviewed-on: https://go-review.googlesource.com/34137 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 18:14:35 -08:00
line := s.peekPos()
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
pos := base.Ctxt.PosTable.Pos(line)
cmd/compile: fix merge rules for panic calls Use entire inlining call stack to decide whether two panic calls can be merged. We used to merge panic calls when only the leaf line numbers matched, but that leads to places higher up the call stack being merged incorrectly. Fixes #22083 Change-Id: Ia41400a80de4b6ecf3e5089abce0c42b65e9b38a Reviewed-on: https://go-review.googlesource.com/67632 Run-TryBot: Emmanuel Odeke <emm.odeke@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
2017-10-02 15:47:41 -07:00
fl := funcLine{f: fn, base: pos.Base(), line: pos.Line()}
cmd/compile: restore panic deduplication The switch to detailed position information broke the removal of duplicate panics on the same line. Restore it. Neutral compiler performance impact: name old alloc/op new alloc/op delta Template 38.8MB ± 0% 38.8MB ± 0% ~ (p=0.690 n=5+5) Unicode 28.7MB ± 0% 28.7MB ± 0% +0.13% (p=0.032 n=5+5) GoTypes 109MB ± 0% 109MB ± 0% ~ (p=1.000 n=5+5) Compiler 457MB ± 0% 457MB ± 0% ~ (p=0.151 n=5+5) SSA 1.09GB ± 0% 1.10GB ± 0% +0.17% (p=0.008 n=5+5) Flate 24.6MB ± 0% 24.5MB ± 0% -0.35% (p=0.008 n=5+5) GoParser 30.9MB ± 0% 31.0MB ± 0% ~ (p=0.421 n=5+5) Reflect 73.4MB ± 0% 73.4MB ± 0% ~ (p=0.056 n=5+5) Tar 25.6MB ± 0% 25.5MB ± 0% -0.61% (p=0.008 n=5+5) XML 40.9MB ± 0% 40.9MB ± 0% ~ (p=0.841 n=5+5) [Geo mean] 71.6MB 71.6MB -0.07% name old allocs/op new allocs/op delta Template 394k ± 0% 395k ± 1% ~ (p=0.151 n=5+5) Unicode 343k ± 0% 344k ± 0% +0.38% (p=0.032 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=1.000 n=5+5) Compiler 4.41M ± 0% 4.42M ± 0% ~ (p=0.151 n=5+5) SSA 9.79M ± 0% 9.79M ± 0% ~ (p=0.690 n=5+5) Flate 238k ± 1% 238k ± 0% ~ (p=0.151 n=5+5) GoParser 321k ± 0% 321k ± 1% ~ (p=0.548 n=5+5) Reflect 958k ± 0% 957k ± 0% ~ (p=0.841 n=5+5) Tar 252k ± 0% 252k ± 1% ~ (p=0.151 n=5+5) XML 401k ± 0% 400k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 742k +0.08% Reduces object files a little bit: name old object-bytes new object-bytes delta Template 386k ± 0% 386k ± 0% -0.04% (p=0.008 n=5+5) Unicode 202k ± 0% 202k ± 0% ~ (all equal) GoTypes 1.16M ± 0% 1.16M ± 0% -0.04% (p=0.008 n=5+5) Compiler 3.91M ± 0% 3.91M ± 0% -0.08% (p=0.008 n=5+5) SSA 7.91M ± 0% 7.91M ± 0% -0.04% (p=0.008 n=5+5) Flate 228k ± 0% 227k ± 0% -0.28% (p=0.008 n=5+5) GoParser 283k ± 0% 283k ± 0% -0.01% (p=0.008 n=5+5) Reflect 952k ± 0% 951k ± 0% -0.03% (p=0.008 n=5+5) Tar 188k ± 0% 187k ± 0% -0.09% (p=0.008 n=5+5) XML 406k ± 0% 406k ± 0% -0.04% (p=0.008 n=5+5) [Geo mean] 648k 648k -0.06% This was discovered in the context for the Fannkuch benchmark. It shrinks the number of panicindex calls in that function from 13 back to 9, their 1.8.1 level. It shrinks the function text a bit, from 829 to 801 bytes. It slows down execution a little, presumably due to alignment (?). name old time/op new time/op delta Fannkuch11-8 2.68s ± 2% 2.74s ± 1% +2.09% (p=0.000 n=19+20) After this CL, 1.8.1 and tip are identical: name old time/op new time/op delta Fannkuch11-8 2.74s ± 2% 2.74s ± 1% ~ (p=0.301 n=20+20) Fixes #20332 Change-Id: I2aeacc3e8cf2ac1ff10f36c572a27856f4f8f7c9 Reviewed-on: https://go-review.googlesource.com/43291 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-05-11 11:41:02 -07:00
bPanic := s.panics[fl]
[dev.ssa] cmd/compile: Deduplicate panic{index,slice,divide} calls Panics are only distinguished by their type and line number, so if we can trigger two of those panics in the same line, use the same panic call. For example, in a[i]+b[j] we need only one panicindex call that both bounds checks can use. Change-Id: Ia2b6d3b1a67f2775df05fb72b8a1b149833572b7 Reviewed-on: https://go-review.googlesource.com/16772 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-09 21:35:40 -08:00
if bPanic == nil {
bPanic = s.f.NewBlock(ssa.BlockPlain)
cmd/compile: restore panic deduplication The switch to detailed position information broke the removal of duplicate panics on the same line. Restore it. Neutral compiler performance impact: name old alloc/op new alloc/op delta Template 38.8MB ± 0% 38.8MB ± 0% ~ (p=0.690 n=5+5) Unicode 28.7MB ± 0% 28.7MB ± 0% +0.13% (p=0.032 n=5+5) GoTypes 109MB ± 0% 109MB ± 0% ~ (p=1.000 n=5+5) Compiler 457MB ± 0% 457MB ± 0% ~ (p=0.151 n=5+5) SSA 1.09GB ± 0% 1.10GB ± 0% +0.17% (p=0.008 n=5+5) Flate 24.6MB ± 0% 24.5MB ± 0% -0.35% (p=0.008 n=5+5) GoParser 30.9MB ± 0% 31.0MB ± 0% ~ (p=0.421 n=5+5) Reflect 73.4MB ± 0% 73.4MB ± 0% ~ (p=0.056 n=5+5) Tar 25.6MB ± 0% 25.5MB ± 0% -0.61% (p=0.008 n=5+5) XML 40.9MB ± 0% 40.9MB ± 0% ~ (p=0.841 n=5+5) [Geo mean] 71.6MB 71.6MB -0.07% name old allocs/op new allocs/op delta Template 394k ± 0% 395k ± 1% ~ (p=0.151 n=5+5) Unicode 343k ± 0% 344k ± 0% +0.38% (p=0.032 n=5+5) GoTypes 1.16M ± 0% 1.16M ± 0% ~ (p=1.000 n=5+5) Compiler 4.41M ± 0% 4.42M ± 0% ~ (p=0.151 n=5+5) SSA 9.79M ± 0% 9.79M ± 0% ~ (p=0.690 n=5+5) Flate 238k ± 1% 238k ± 0% ~ (p=0.151 n=5+5) GoParser 321k ± 0% 321k ± 1% ~ (p=0.548 n=5+5) Reflect 958k ± 0% 957k ± 0% ~ (p=0.841 n=5+5) Tar 252k ± 0% 252k ± 1% ~ (p=0.151 n=5+5) XML 401k ± 0% 400k ± 0% ~ (p=1.000 n=5+5) [Geo mean] 741k 742k +0.08% Reduces object files a little bit: name old object-bytes new object-bytes delta Template 386k ± 0% 386k ± 0% -0.04% (p=0.008 n=5+5) Unicode 202k ± 0% 202k ± 0% ~ (all equal) GoTypes 1.16M ± 0% 1.16M ± 0% -0.04% (p=0.008 n=5+5) Compiler 3.91M ± 0% 3.91M ± 0% -0.08% (p=0.008 n=5+5) SSA 7.91M ± 0% 7.91M ± 0% -0.04% (p=0.008 n=5+5) Flate 228k ± 0% 227k ± 0% -0.28% (p=0.008 n=5+5) GoParser 283k ± 0% 283k ± 0% -0.01% (p=0.008 n=5+5) Reflect 952k ± 0% 951k ± 0% -0.03% (p=0.008 n=5+5) Tar 188k ± 0% 187k ± 0% -0.09% (p=0.008 n=5+5) XML 406k ± 0% 406k ± 0% -0.04% (p=0.008 n=5+5) [Geo mean] 648k 648k -0.06% This was discovered in the context for the Fannkuch benchmark. It shrinks the number of panicindex calls in that function from 13 back to 9, their 1.8.1 level. It shrinks the function text a bit, from 829 to 801 bytes. It slows down execution a little, presumably due to alignment (?). name old time/op new time/op delta Fannkuch11-8 2.68s ± 2% 2.74s ± 1% +2.09% (p=0.000 n=19+20) After this CL, 1.8.1 and tip are identical: name old time/op new time/op delta Fannkuch11-8 2.74s ± 2% 2.74s ± 1% ~ (p=0.301 n=20+20) Fixes #20332 Change-Id: I2aeacc3e8cf2ac1ff10f36c572a27856f4f8f7c9 Reviewed-on: https://go-review.googlesource.com/43291 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-05-11 11:41:02 -07:00
s.panics[fl] = bPanic
[dev.ssa] cmd/compile: Deduplicate panic{index,slice,divide} calls Panics are only distinguished by their type and line number, so if we can trigger two of those panics in the same line, use the same panic call. For example, in a[i]+b[j] we need only one panicindex call that both bounds checks can use. Change-Id: Ia2b6d3b1a67f2775df05fb72b8a1b149833572b7 Reviewed-on: https://go-review.googlesource.com/16772 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-09 21:35:40 -08:00
s.startBlock(bPanic)
// The panic call takes/returns memory to ensure that the right
// memory state is observed if the panic happens.
s.rtcall(fn, false, nil)
}
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bNext)
b.AddEdgeTo(bPanic)
[dev.ssa] cmd/internal/ssa: Handle more instructions + some cleanup Add & as an input op. Add several output ops (loads & stores, TESTB, LEAQglobal, branches, memcopy) Some other small things: - Add exprAddr to builder to generate addresses of expressions. Use it in various places that had ad-hoc code. - Separate out nil & bounds check generation to separate functions. - Add explicit FP and SP ops so we dont need specialized *FP and *SP opcodes. - Fix fallthrough at end of functions with no return values. - rematerialization of more opcodes. Change-Id: I781decfcef9770fb15f0cd6b061547f7824a2d5e Reviewed-on: https://go-review.googlesource.com/10213 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-05-18 16:44:20 -07:00
s.startBlock(bNext)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) intDivide(n ir.Node, a, b *ssa.Value) *ssa.Value {
cmd/compile: omit some temp panicdivide calls When the divisor is known to be a constant non-zero, don't insert panicdivide calls that will just be eliminated later. The main benefit here is readability of the SSA form for compiler developers. Change-Id: Icb7d07fc996941fbaff84524ac3e4b53d8e75fda Reviewed-on: https://go-review.googlesource.com/28530 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-04 16:59:46 -07:00
needcheck := true
switch b.Op {
case ssa.OpConst8, ssa.OpConst16, ssa.OpConst32, ssa.OpConst64:
if b.AuxInt != 0 {
needcheck = false
}
}
if needcheck {
// do a size-appropriate check for zero
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
cmp := s.newValue2(s.ssaOp(ir.ONE, n.Type()), types.Types[types.TBOOL], b, s.zeroVal(n.Type()))
cmd/compile: omit some temp panicdivide calls When the divisor is known to be a constant non-zero, don't insert panicdivide calls that will just be eliminated later. The main benefit here is readability of the SSA form for compiler developers. Change-Id: Icb7d07fc996941fbaff84524ac3e4b53d8e75fda Reviewed-on: https://go-review.googlesource.com/28530 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-04 16:59:46 -07:00
s.check(cmp, panicdivide)
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue2(s.ssaOp(n.Op(), n.Type()), a.Type, a, b)
cmd/compile: omit some temp panicdivide calls When the divisor is known to be a constant non-zero, don't insert panicdivide calls that will just be eliminated later. The main benefit here is readability of the SSA form for compiler developers. Change-Id: Icb7d07fc996941fbaff84524ac3e4b53d8e75fda Reviewed-on: https://go-review.googlesource.com/28530 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-09-04 16:59:46 -07:00
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
// rtcall issues a call to the given runtime function fn with the listed args.
// Returns a slice of results of the given result types.
// The call is added to the end of the current block.
// If returns is false, the block is marked as an exit block.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) rtcall(fn *obj.LSym, returns bool, results []*types.Type, args ...*ssa.Value) []*ssa.Value {
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
s.prevCall = nil
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
// Write args to the stack
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
off := base.Ctxt.FixedFrameSize()
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
testLateExpansion := ssa.LateCallExpansionEnabledWithin(s.f)
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
var ACArgs []ssa.Param
var ACResults []ssa.Param
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
var callArgs []*ssa.Value
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
for _, arg := range args {
t := arg.Type
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
off = Rnd(off, t.Alignment())
size := t.Size()
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
ACArgs = append(ACArgs, ssa.Param{Type: t, Offset: int32(off)})
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
if testLateExpansion {
callArgs = append(callArgs, arg)
} else {
ptr := s.constOffPtrSP(t.PtrTo(), off)
s.store(t, ptr, arg)
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
off += size
}
cmd/compile: cleanup after IntSize->PtrSize conversion Also, replace "PtrSize == 4 && Arch != amd64p32" with "RegSize == 4". Passes toolstash-check -all. Updates #19954. Change-Id: I79b2ee9324f4fa53e34c9271d837ea288b5d7829 Reviewed-on: https://go-review.googlesource.com/41491 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-04-21 19:16:15 -07:00
off = Rnd(off, int64(Widthreg))
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
cmd/compile: initialize ACArgs and ACResults AuxCall fields for static and interface calls. Extend use of AuxCall Change-Id: I68b6d9bad09506532e1415fd70d44cf6c15b4b93 Reviewed-on: https://go-review.googlesource.com/c/go/+/239081 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-19 15:29:51 -04:00
// Accumulate results types and offsets
offR := off
for _, t := range results {
offR = Rnd(offR, t.Alignment())
ACResults = append(ACResults, ssa.Param{Type: t, Offset: int32(offR)})
offR += t.Size()
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
// Issue call
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
var call *ssa.Value
aux := ssa.StaticAuxCall(fn, ACArgs, ACResults)
if testLateExpansion {
callArgs = append(callArgs, s.mem())
call = s.newValue0A(ssa.OpStaticLECall, aux.LateExpansionResultType(), aux)
call.AddArgs(callArgs...)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1I(ssa.OpSelectN, types.TypeMem, int64(len(ACResults)), call)
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
} else {
call = s.newValue1A(ssa.OpStaticCall, types.TypeMem, aux, s.mem())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = call
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
if !returns {
cmd/compile: get rid of BlockCall No need for it, we can treat calls as (mostly) normal values that take a memory and return a memory. Lowers the number of basic blocks needed to represent a function. "go test -c net/http" uses 27% fewer basic blocks. Probably doesn't affect generated code much, but should help various passes whose running time and/or space depends on the number of basic blocks. Fixes #15631 Change-Id: I0bf21e123f835e2cfa382753955a4f8bce03dfa6 Reviewed-on: https://go-review.googlesource.com/28950 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-09 13:11:07 -07:00
// Finish block
b := s.endBlock()
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
b.Kind = ssa.BlockExit
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(call)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
call.AuxInt = off - base.Ctxt.FixedFrameSize()
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
if len(results) > 0 {
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
s.Fatalf("panic call can't have results")
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
}
return nil
}
// Load results
res := make([]*ssa.Value, len(results))
cmd/compile: late call expansion for rtcall Change-Id: I0708c9d649d8a579857330b68d9fbcbbeced29e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/248189 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-12 15:46:19 -04:00
if testLateExpansion {
for i, t := range results {
off = Rnd(off, t.Alignment())
if canSSAType(t) {
res[i] = s.newValue1I(ssa.OpSelectN, t, int64(i), call)
} else {
addr := s.newValue1I(ssa.OpSelectNAddr, types.NewPtr(t), int64(i), call)
res[i] = s.rawLoad(t, addr)
}
off += t.Size()
}
} else {
for i, t := range results {
off = Rnd(off, t.Alignment())
ptr := s.constOffPtrSP(types.NewPtr(t), off)
res[i] = s.load(t, ptr)
off += t.Size()
}
[dev.ssa] cmd/compile: Move runtime call gen to its own function Change-Id: I5de36244de4dcc4a9827ee0fa04526e3e3578e7f Reviewed-on: https://go-review.googlesource.com/14755 Reviewed-by: David Chase <drchase@google.com>
2015-09-18 15:11:30 -07:00
}
off = Rnd(off, int64(Widthptr))
// Remember how much callee stack space we needed.
call.AuxInt = off
return res
}
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
// do *left = right for type t.
cmd/compile: adjust is-statement on Pos's to improve debugging Stores to auto tmp variables can be hoisted to places where the line numbers make debugging look "jumpy". Turning those instructions into ones with is_stmt = 0 in the DWARF (accomplished by marking ssa nodes with NotStmt) makes debugging look better while still attributing the instructions with the correct line number. The same is true for certain register allocator spills and reloads. Change-Id: I97a394eb522d4911cc40b4bf5bf76d3d7221f6c0 Reviewed-on: https://go-review.googlesource.com/98415 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-02 20:33:15 -05:00
func (s *state) storeType(t *types.Type, left, right *ssa.Value, skip skipMask, leftIsStmt bool) {
cmd/compile: insert instrumentation during SSA building Insert appropriate race/msan calls before each memory operation during SSA construction. This is conceptually simple, but subtle because we need to be careful that inserted instrumentation calls don't clobber arguments that are currently being prepared for a user function call. reorder1 already handles introducing temporary variables for arguments in some cases. This CL changes it to use them for all arguments when instrumenting. Also, we can't SSA struct types with more than one field while instrumenting. Otherwise, concurrent uses of disjoint fields within an SSA-able struct can introduce false races. This is both somewhat better and somewhat worse than the old racewalk instrumentation pass. We're now able to easily recognize cases like constructing non-escaping closures on the stack or accessing closure variables don't need instrumentation calls. On the other hand, spilling escaping parameters to the heap now results in an instrumentation call. Overall, this CL results in a small net reduction in the number of instrumentation calls, but a small net increase in binary size for instrumented executables. cmd/go ends up with 5.6% fewer calls, but a 2.4% larger binary. Fixes #19054. Change-Id: I70d1dd32ad6340e6fdb691e6d5a01452f58e97f3 Reviewed-on: https://go-review.googlesource.com/102817 Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-27 13:50:08 -07:00
s.instrument(t, left, true)
cmd/compile: make Haspointers a method instead of a function More ergonomic that way. Also change Haspointers to HasPointers while we are here. Change-Id: I45bedc294c1a8c2bd01dc14bd04615ae77555375 Reviewed-on: https://go-review.googlesource.com/c/go/+/249959 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-08-22 14:07:30 -07:00
if skip == 0 && (!t.HasPointers() || ssa.IsStackAddr(left)) {
cmd/compile: using a single Store op for non-pointer non-skip store This makes fewer Values around until decomposing, reducing allocation in compiler. name old alloc/op new alloc/op delta Template 41.4MB ± 0% 40.8MB ± 0% -1.29% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.24% (p=0.000 n=10+10) GoTypes 118MB ± 0% 115MB ± 0% -2.23% (p=0.000 n=10+10) Compiler 505MB ± 0% 493MB ± 0% -2.47% (p=0.000 n=10+10) SSA 881MB ± 0% 872MB ± 0% -1.03% (p=0.000 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 1% 400k ± 1% ~ (p=0.631 n=10+10) Unicode 321k ± 0% 321k ± 1% ~ (p=0.684 n=10+10) GoTypes 1.18M ± 0% 1.17M ± 0% -0.34% (p=0.000 n=10+10) Compiler 4.63M ± 0% 4.61M ± 0% -0.43% (p=0.000 n=10+10) SSA 7.83M ± 0% 7.82M ± 0% -0.13% (p=0.000 n=10+10) Change-Id: I8f736396294444248a439bd4c90be1357024ce88 Reviewed-on: https://go-review.googlesource.com/38294 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 11:53:24 -04:00
// Known to not have write barrier. Store the whole type.
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue3Apos(ssa.OpStore, types.TypeMem, t, left, right, s.mem(), leftIsStmt)
cmd/compile: using a single Store op for non-pointer non-skip store This makes fewer Values around until decomposing, reducing allocation in compiler. name old alloc/op new alloc/op delta Template 41.4MB ± 0% 40.8MB ± 0% -1.29% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.24% (p=0.000 n=10+10) GoTypes 118MB ± 0% 115MB ± 0% -2.23% (p=0.000 n=10+10) Compiler 505MB ± 0% 493MB ± 0% -2.47% (p=0.000 n=10+10) SSA 881MB ± 0% 872MB ± 0% -1.03% (p=0.000 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 1% 400k ± 1% ~ (p=0.631 n=10+10) Unicode 321k ± 0% 321k ± 1% ~ (p=0.684 n=10+10) GoTypes 1.18M ± 0% 1.17M ± 0% -0.34% (p=0.000 n=10+10) Compiler 4.63M ± 0% 4.61M ± 0% -0.43% (p=0.000 n=10+10) SSA 7.83M ± 0% 7.82M ± 0% -0.13% (p=0.000 n=10+10) Change-Id: I8f736396294444248a439bd4c90be1357024ce88 Reviewed-on: https://go-review.googlesource.com/38294 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 11:53:24 -04:00
return
}
cmd/compile: clean up SSA-building code Now that the write barrier insertion is moved to SSA, the SSA building code can be simplified. Updates #17583. Change-Id: I5cacc034b11aa90b0abe6f8dd97e4e3994e2bc25 Reviewed-on: https://go-review.googlesource.com/36840 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-10 10:15:10 -05:00
// store scalar fields first, so write barrier stores for
// pointer fields can be grouped together, and scalar values
// don't need to be live across the write barrier call.
cmd/compile: using a single Store op for non-pointer non-skip store This makes fewer Values around until decomposing, reducing allocation in compiler. name old alloc/op new alloc/op delta Template 41.4MB ± 0% 40.8MB ± 0% -1.29% (p=0.000 n=10+10) Unicode 30.3MB ± 0% 30.2MB ± 0% -0.24% (p=0.000 n=10+10) GoTypes 118MB ± 0% 115MB ± 0% -2.23% (p=0.000 n=10+10) Compiler 505MB ± 0% 493MB ± 0% -2.47% (p=0.000 n=10+10) SSA 881MB ± 0% 872MB ± 0% -1.03% (p=0.000 n=10+10) name old allocs/op new allocs/op delta Template 401k ± 1% 400k ± 1% ~ (p=0.631 n=10+10) Unicode 321k ± 0% 321k ± 1% ~ (p=0.684 n=10+10) GoTypes 1.18M ± 0% 1.17M ± 0% -0.34% (p=0.000 n=10+10) Compiler 4.63M ± 0% 4.61M ± 0% -0.43% (p=0.000 n=10+10) SSA 7.83M ± 0% 7.82M ± 0% -0.13% (p=0.000 n=10+10) Change-Id: I8f736396294444248a439bd4c90be1357024ce88 Reviewed-on: https://go-review.googlesource.com/38294 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 11:53:24 -04:00
// TODO: if the writebarrier pass knows how to reorder stores,
// we can do a single store here as long as skip==0.
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
s.storeTypeScalars(t, left, right, skip)
cmd/compile: make Haspointers a method instead of a function More ergonomic that way. Also change Haspointers to HasPointers while we are here. Change-Id: I45bedc294c1a8c2bd01dc14bd04615ae77555375 Reviewed-on: https://go-review.googlesource.com/c/go/+/249959 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-08-22 14:07:30 -07:00
if skip&skipPtr == 0 && t.HasPointers() {
cmd/compile: clean up SSA-building code Now that the write barrier insertion is moved to SSA, the SSA building code can be simplified. Updates #17583. Change-Id: I5cacc034b11aa90b0abe6f8dd97e4e3994e2bc25 Reviewed-on: https://go-review.googlesource.com/36840 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-10 10:15:10 -05:00
s.storeTypePtrs(t, left, right)
}
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
// do *left = right for all scalar (non-pointer) parts of t.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) storeTypeScalars(t *types.Type, left, right *ssa.Value, skip skipMask) {
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
switch {
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
case t.IsBoolean() || t.IsInteger() || t.IsFloat() || t.IsComplex():
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(t, left, right)
cmd/compile: rename Type.IsPtr to Type.IsPtrShaped Previously, t.IsPtr() reported whether t was represented with a pointer, but some of its callers expected it to report whether t is an actual Go pointer. Resolve this by renaming t.IsPtr to t.IsPtrShaped and adding a new t.IsPtr method to report Go pointer types. Updated a couple callers in gc/ssa.go to use IsPtr instead of IsPtrShaped. Passes toolstash -cmp. Updates #15028. Change-Id: I0a8154b5822ad8a6ad296419126ad01a3d2a5dc5 Reviewed-on: https://go-review.googlesource.com/21232 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-03-28 10:55:44 -07:00
case t.IsPtrShaped():
cmd/compile: fix storeType to handle pointers to go:notinheap types storeType splits compound stores up into a scalar parts and a pointer parts. The scalar part happens unconditionally, and the pointer part happens under the guard of a write barrier check. Types which are declared as pointers, but are represented as scalars because they might have "bad" values, were not handled correctly here. They ended up not getting stored in either set. Fixes #42032 Change-Id: I46f6600075c0c370e640b807066247237f93c7ac Reviewed-on: https://go-review.googlesource.com/c/go/+/264300 Trust: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2020-10-22 13:11:16 -07:00
if t.IsPtr() && t.Elem().NotInHeap() {
s.store(t, left, right) // see issue 42032
}
// otherwise, no scalar fields.
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsString():
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
if skip&skipLen != 0 {
return
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpStringLen, types.Types[types.TINT], right)
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
lenAddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.IntPtr, s.config.PtrSize, left)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TINT], lenAddr, len)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsSlice():
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
if skip&skipLen == 0 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len := s.newValue1(ssa.OpSliceLen, types.Types[types.TINT], right)
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
lenAddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.IntPtr, s.config.PtrSize, left)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TINT], lenAddr, len)
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
}
if skip&skipCap == 0 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cap := s.newValue1(ssa.OpSliceCap, types.Types[types.TINT], right)
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
capAddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.IntPtr, 2*s.config.PtrSize, left)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TINT], capAddr, cap)
cmd/compile: don't write back unchanged slice results Don't write back parts of a slicing operation if they are unchanged from the source of the slice. For example: x.s = x.s[0:5] // don't write back pointer or cap x.s = x.s[:5] // don't write back pointer or cap x.s = x.s[:5:7] // don't write back pointer There is more to be done here, for example: x.s = x.s[:len(x.s):7] // don't write back ptr or len This CL can't handle that one yet. Fixes #14855 Change-Id: Id1e1a4fa7f3076dc1a76924a7f1cd791b81909bb Reviewed-on: https://go-review.googlesource.com/20954 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-03-21 10:22:03 -07:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsInterface():
// itab field doesn't need a write barrier (even though it is a pointer).
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
itab := s.newValue1(ssa.OpITab, s.f.Config.Types.BytePtr, right)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
s.store(types.Types[types.TUINTPTR], left, itab)
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
case t.IsStruct():
n := t.NumFields()
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
for i := 0; i < n; i++ {
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
ft := t.FieldType(i)
addr := s.newValue1I(ssa.OpOffPtr, ft.PtrTo(), t.FieldOff(i), left)
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
val := s.newValue1I(ssa.OpStructSelect, ft, int64(i), right)
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
s.storeTypeScalars(ft, addr, val, 0)
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
}
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
case t.IsArray() && t.NumElem() == 0:
// nothing
case t.IsArray() && t.NumElem() == 1:
s.storeTypeScalars(t.Elem(), left, s.newValue1I(ssa.OpArraySelect, t.Elem(), 0, right), 0)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad write barrier type %v", t)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
}
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
// do *left = right for all pointer parts of t.
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
func (s *state) storeTypePtrs(t *types.Type, left, right *ssa.Value) {
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
switch {
cmd/compile: rename Type.IsPtr to Type.IsPtrShaped Previously, t.IsPtr() reported whether t was represented with a pointer, but some of its callers expected it to report whether t is an actual Go pointer. Resolve this by renaming t.IsPtr to t.IsPtrShaped and adding a new t.IsPtr method to report Go pointer types. Updated a couple callers in gc/ssa.go to use IsPtr instead of IsPtrShaped. Passes toolstash -cmp. Updates #15028. Change-Id: I0a8154b5822ad8a6ad296419126ad01a3d2a5dc5 Reviewed-on: https://go-review.googlesource.com/21232 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-03-28 10:55:44 -07:00
case t.IsPtrShaped():
cmd/compile: fix storeType to handle pointers to go:notinheap types storeType splits compound stores up into a scalar parts and a pointer parts. The scalar part happens unconditionally, and the pointer part happens under the guard of a write barrier check. Types which are declared as pointers, but are represented as scalars because they might have "bad" values, were not handled correctly here. They ended up not getting stored in either set. Fixes #42032 Change-Id: I46f6600075c0c370e640b807066247237f93c7ac Reviewed-on: https://go-review.googlesource.com/c/go/+/264300 Trust: Keith Randall <khr@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2020-10-22 13:11:16 -07:00
if t.IsPtr() && t.Elem().NotInHeap() {
break // see issue 42032
}
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(t, left, right)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsString():
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
ptr := s.newValue1(ssa.OpStringPtr, s.f.Config.Types.BytePtr, right)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(s.f.Config.Types.BytePtr, left, ptr)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsSlice():
cmd/compile: []T where T is go:notinheap does not need write barriers Currently, assigning a []T where T is a go:notinheap type generates an unnecessary write barrier for storing the slice pointer. This fixes this by teaching HasHeapPointer that this type does not have a heap pointer, and tweaking the lowering of slice assignments so the pointer store retains the correct type rather than simply lowering it to a *uint8 store. Change-Id: I8bf7c66e64a7fefdd14f2bd0de8a5a3596340bab Reviewed-on: https://go-review.googlesource.com/76027 Run-TryBot: Austin Clements <austin@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-11-02 12:37:25 -04:00
elType := types.NewPtr(t.Elem())
ptr := s.newValue1(ssa.OpSlicePtr, elType, right)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(elType, left, ptr)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
case t.IsInterface():
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
// itab field is treated as a scalar.
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
idata := s.newValue1(ssa.OpIData, s.f.Config.Types.BytePtr, right)
idataAddr := s.newValue1I(ssa.OpOffPtr, s.f.Config.Types.BytePtrPtr, s.config.PtrSize, left)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.store(s.f.Config.Types.BytePtr, idataAddr, idata)
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
case t.IsStruct():
n := t.NumFields()
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
for i := 0; i < n; i++ {
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
ft := t.FieldType(i)
cmd/compile: make Haspointers a method instead of a function More ergonomic that way. Also change Haspointers to HasPointers while we are here. Change-Id: I45bedc294c1a8c2bd01dc14bd04615ae77555375 Reviewed-on: https://go-review.googlesource.com/c/go/+/249959 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-08-22 14:07:30 -07:00
if !ft.HasPointers() {
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
continue
}
addr := s.newValue1I(ssa.OpOffPtr, ft.PtrTo(), t.FieldOff(i), left)
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
val := s.newValue1I(ssa.OpStructSelect, ft, int64(i), right)
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
s.storeTypePtrs(ft, addr, val)
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
}
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
case t.IsArray() && t.NumElem() == 0:
// nothing
case t.IsArray() && t.NumElem() == 1:
s.storeTypePtrs(t.Elem(), left, s.newValue1I(ssa.OpArraySelect, t.Elem(), 0, right))
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
default:
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
s.Fatalf("bad write barrier type %v", t)
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
}
[dev.ssa] cmd/compile: reorg write barriers a bit Use just a single write barrier flag test, even if there are multiple pointer fields in a struct. This helps move more of the wb-specific code (like the LEA needed to materialize the write address) into the unlikely path. Change-Id: Ic7a67145904369c4ff031e464d51267d71281c8f Reviewed-on: https://go-review.googlesource.com/19085 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-29 21:57:57 -08:00
}
[dev.ssa] cmd/compile: fix write barriers for SSA The old write barriers used _nostore versions, which don't work for Ian's cgo checker. Instead, we adopt the same write barrier pattern as the default compiler. It's a bit trickier to code up but should be more efficient. Change-Id: I6696c3656cf179e28f800b0e096b7259bd5f3bb7 Reviewed-on: https://go-review.googlesource.com/18941 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-25 17:06:54 -08:00
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
// putArg evaluates n for the purpose of passing it as an argument to a function and returns the corresponding Param for the call.
// If forLateExpandedCall is true, it returns the argument value to pass to the call operation.
// If forLateExpandedCall is false, then the value is stored at the specified stack offset, and the returned value is nil.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) putArg(n ir.Node, t *types.Type, off int64, forLateExpandedCall bool) (ssa.Param, *ssa.Value) {
cmd/compile: generate late-lowering static calls This is testing for the limited case of zero or one SSA-able results. One regression is that the later expansion of "Dereference" into Move into argument slots thwarts the MOVE A -> B, MOVE B -> C replaced-by MOVE A -> B, MOVE A -> C optimization; the second move is written instead as a Dereference at the phase where the optimization occurs, and because the target of the dereference is not visible in the dereference, it's not possible to verify that A and B or A and C don't overlap in some peculiar way (and for results fed to args, they can). Regression is repaired in a later CL by changing when calls are expanded. Change-Id: Ia0f48a9d483d5a54a99657a24b12b25b8edde55f Reviewed-on: https://go-review.googlesource.com/c/go/+/242782 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-07-15 09:07:00 -04:00
var a *ssa.Value
if forLateExpandedCall {
if !canSSAType(t) {
a = s.newValue2(ssa.OpDereference, t, s.addr(n), s.mem())
} else {
a = s.expr(n)
}
} else {
s.storeArgWithBase(n, t, s.sp, off)
}
return ssa.Param{Type: t, Offset: int32(off)}, a
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) storeArgWithBase(n ir.Node, t *types.Type, base *ssa.Value, off int64) {
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
pt := types.NewPtr(t)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
var addr *ssa.Value
if base == s.sp {
// Use special routine that avoids allocation on duplicate offsets.
addr = s.constOffPtrSP(pt, off)
} else {
addr = s.newValue1I(ssa.OpOffPtr, pt, off, base)
}
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
if !canSSAType(t) {
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
a := s.addr(n)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
s.move(t, addr, a)
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
return
}
a := s.expr(n)
Revert "Revert "cmd/compile,runtime: allocate defer records on the stack"" This reverts CL 180761 Reason for revert: Reinstate the stack-allocated defer CL. There was nothing wrong with the CL proper, but stack allocation of defers exposed two other issues. Issue #32477: Fix has been submitted as CL 181258. Issue #32498: Possible fix is CL 181377 (not submitted yet). Change-Id: I32b3365d5026600069291b068bbba6cb15295eb3 Reviewed-on: https://go-review.googlesource.com/c/go/+/181378 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-06-08 17:20:57 +00:00
s.storeType(t, addr, a, 0, false)
cmd/compile: move argument stack construction to SSA generation The goal of this change is to move work from walk to SSA, and simplify things along the way. This is hard to accomplish cleanly with small incremental changes, so this large commit message aims to provide a roadmap to the diff. High level description: Prior to this change, walk was responsible for constructing (most of) the stack for function calls. ascompatte gathered variadic arguments into a slice. It also rewrote n.List from a list of arguments to a list of assignments to stack slots. ascompatte was called multiple times to handle the receiver in a method call. reorder1 then introduced temporaries into n.List as needed to avoid smashing the stack. adjustargs then made extra stack space for go/defer args as needed. Node to SSA construction evaluated all the statements in n.List, and issued the function call, assuming that the stack was correctly constructed. Intrinsic calls had to dig around inside n.List to extract the arguments, since intrinsics don't use the stack to make function calls. This change moves stack construction to the SSA construction phase. ascompatte, now called walkParams, does all the work that ascompatte and reorder1 did. It handles variadic arguments, inserts the method receiver if needed, and allocates temporaries. It does not, however, make any assignments to stack slots. Instead, it moves the function arguments to n.Rlist, leaving assignments to temporaries in n.List. (It would be better to use Ninit instead of List; future work.) During SSA construction, after doing all the temporary assignments in n.List, the function arguments are assigned to stack slots by constructing the appropriate SSA Value, using (*state).storeArg. SSA construction also now handles adjustments for go/defer args. This change also simplifies intrinsic calls, since we no longer need to undo walk's work. Along the way, we simplify nodarg by pushing the fp==1 case to its callers, where it fits nicely. Generated code differences: There were a few optimizations applied along the way, the old way. f(g()) was rewritten to do a block copy of function results to function arguments. And reorder1 avoided introducing the final "save the stack" temporary in n.List. The f(g()) block copy optimization never actually triggered; the order pass rewrote away g(), so that has been removed. SSA optimizations mostly obviated the need for reorder1's optimization of avoiding the final temporary. The exception was when the temporary's type was not SSA-able; in that case, we got a Move into an autotmp and then an immediate Move onto the stack, with the autotmp never read or used again. This change introduces a new rewrite rule to detect such pointless double Moves and collapse them into a single Move. This is actually more powerful than the original optimization, since the original optimization relied on the imprecise Node.HasCall calculation. The other significant difference in the generated code is that the stack is now constructed completely in SP-offset order. Prior to this change, the stack was constructed somewhat haphazardly: first the final argument that Node.HasCall deemed to require a temporary, then other arguments, then the method receiver, then the defer/go args. SP-offset is probably a good default order. See future work. There are a few minor object file size changes as a result of this change. I investigated some regressions in early versions of this change. One regression (in archive/tar) was the addition of a single CMPQ instruction, which would be eliminated were this TODO from flagalloc to be done: // TODO: Remove original instructions if they are never used. One regression (in text/template) was an ADDQconstmodify that is now a regular MOVQLoad+ADDQconst+MOVQStore, due to an unlucky change in the order in which arguments are written. The argument change order can also now be luckier, so this appears to be a wash. All in all, though there will be minor winners and losers, this change appears to be performance neutral. Future work: Move loading the result of function calls to SSA construction; eliminate OINDREGSP. Consider pushing stack construction deeper into SSA world, perhaps in an arch-specific pass. Among other benefits, this would make it easier to transition to a new calling convention. This would require rethinking the handling of stack conflicts and is non-trivial. Figure out some clean way to indicate that stack construction Stores/Moves do not alias each other, so that subsequent passes may do things like CSE+tighten shared stack setup, do DSE using non-first Stores, etc. This would allow us to eliminate the minor text/template regression. Possibly make assignments to stack slots not treated as statements by DWARF. Compiler benchmarks: name old time/op new time/op delta Template 182ms ± 2% 179ms ± 2% -1.69% (p=0.000 n=47+48) Unicode 86.3ms ± 5% 85.1ms ± 4% -1.36% (p=0.001 n=50+50) GoTypes 646ms ± 1% 642ms ± 1% -0.63% (p=0.000 n=49+48) Compiler 2.89s ± 1% 2.86s ± 2% -1.36% (p=0.000 n=48+50) SSA 8.47s ± 1% 8.37s ± 2% -1.22% (p=0.000 n=47+50) Flate 122ms ± 2% 121ms ± 2% -0.66% (p=0.000 n=47+45) GoParser 147ms ± 2% 146ms ± 2% -0.53% (p=0.006 n=46+49) Reflect 406ms ± 2% 403ms ± 2% -0.76% (p=0.000 n=48+43) Tar 162ms ± 3% 162ms ± 4% ~ (p=0.191 n=46+50) XML 223ms ± 2% 222ms ± 2% -0.37% (p=0.031 n=45+49) [Geo mean] 382ms 378ms -0.89% name old user-time/op new user-time/op delta Template 219ms ± 3% 216ms ± 3% -1.56% (p=0.000 n=50+48) Unicode 109ms ± 6% 109ms ± 5% ~ (p=0.190 n=50+49) GoTypes 836ms ± 2% 828ms ± 2% -0.96% (p=0.000 n=49+48) Compiler 3.87s ± 2% 3.80s ± 1% -1.81% (p=0.000 n=49+46) SSA 12.0s ± 1% 11.8s ± 1% -2.01% (p=0.000 n=48+50) Flate 142ms ± 3% 141ms ± 3% -0.85% (p=0.003 n=50+48) GoParser 178ms ± 4% 175ms ± 4% -1.66% (p=0.000 n=48+46) Reflect 520ms ± 2% 512ms ± 2% -1.44% (p=0.000 n=45+48) Tar 200ms ± 3% 198ms ± 4% -0.61% (p=0.037 n=47+50) XML 277ms ± 3% 275ms ± 3% -0.85% (p=0.000 n=49+48) [Geo mean] 482ms 476ms -1.23% name old alloc/op new alloc/op delta Template 36.1MB ± 0% 35.3MB ± 0% -2.18% (p=0.008 n=5+5) Unicode 29.8MB ± 0% 29.3MB ± 0% -1.58% (p=0.008 n=5+5) GoTypes 125MB ± 0% 123MB ± 0% -2.13% (p=0.008 n=5+5) Compiler 531MB ± 0% 513MB ± 0% -3.40% (p=0.008 n=5+5) SSA 2.00GB ± 0% 1.93GB ± 0% -3.34% (p=0.008 n=5+5) Flate 24.5MB ± 0% 24.3MB ± 0% -1.18% (p=0.008 n=5+5) GoParser 29.4MB ± 0% 28.7MB ± 0% -2.34% (p=0.008 n=5+5) Reflect 87.1MB ± 0% 86.0MB ± 0% -1.33% (p=0.008 n=5+5) Tar 35.3MB ± 0% 34.8MB ± 0% -1.44% (p=0.008 n=5+5) XML 47.9MB ± 0% 47.1MB ± 0% -1.86% (p=0.008 n=5+5) [Geo mean] 82.8MB 81.1MB -2.08% name old allocs/op new allocs/op delta Template 352k ± 0% 347k ± 0% -1.32% (p=0.008 n=5+5) Unicode 342k ± 0% 339k ± 0% -0.66% (p=0.008 n=5+5) GoTypes 1.29M ± 0% 1.27M ± 0% -1.30% (p=0.008 n=5+5) Compiler 4.98M ± 0% 4.87M ± 0% -2.14% (p=0.008 n=5+5) SSA 15.7M ± 0% 15.2M ± 0% -2.86% (p=0.008 n=5+5) Flate 233k ± 0% 231k ± 0% -0.83% (p=0.008 n=5+5) GoParser 296k ± 0% 291k ± 0% -1.54% (p=0.016 n=5+4) Reflect 1.05M ± 0% 1.04M ± 0% -0.65% (p=0.008 n=5+5) Tar 343k ± 0% 339k ± 0% -0.97% (p=0.008 n=5+5) XML 432k ± 0% 426k ± 0% -1.19% (p=0.008 n=5+5) [Geo mean] 815k 804k -1.35% name old object-bytes new object-bytes delta Template 505kB ± 0% 505kB ± 0% -0.01% (p=0.008 n=5+5) Unicode 224kB ± 0% 224kB ± 0% ~ (all equal) GoTypes 1.82MB ± 0% 1.83MB ± 0% +0.06% (p=0.008 n=5+5) Flate 324kB ± 0% 324kB ± 0% +0.00% (p=0.008 n=5+5) GoParser 402kB ± 0% 402kB ± 0% +0.04% (p=0.008 n=5+5) Reflect 1.39MB ± 0% 1.39MB ± 0% -0.01% (p=0.008 n=5+5) Tar 449kB ± 0% 449kB ± 0% -0.02% (p=0.008 n=5+5) XML 598kB ± 0% 597kB ± 0% -0.05% (p=0.008 n=5+5) Change-Id: Ifc9d5c1bd01f90171414b8fb18ffe2290d271143 Reviewed-on: https://go-review.googlesource.com/c/114797 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2018-05-06 12:58:53 -07:00
}
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
// slice computes the slice v[i:j:k] and returns ptr, len, and cap of result.
// i,j,k may be nil, in which case they are set to their default value.
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// v may be a slice, string or pointer to an array.
func (s *state) slice(v, i, j, k *ssa.Value, bounded bool) (p, l, c *ssa.Value) {
t := v.Type
var ptr, len, cap *ssa.Value
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
switch {
case t.IsSlice():
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
ptr = s.newValue1(ssa.OpSlicePtr, types.NewPtr(t.Elem()), v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len = s.newValue1(ssa.OpSliceLen, types.Types[types.TINT], v)
cap = s.newValue1(ssa.OpSliceCap, types.Types[types.TINT], v)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
case t.IsString():
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ptr = s.newValue1(ssa.OpStringPtr, types.NewPtr(types.Types[types.TUINT8]), v)
len = s.newValue1(ssa.OpStringLen, types.Types[types.TINT], v)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
cap = len
case t.IsPtr():
cmd/compile: add Type.Elem This removes almost all direct access to Type’s heavily overloaded Type field. Mostly generated by eg, manually checked. Significant manual changes: * reflect.go's typPkg used Type indiscriminately. Use it only for specific etypes. * gen.go's visitComponents contained a usage of Type with structs. Using Type for structs no longer occurs, and the Fatal contained therein has not triggered, so it has been axed. * Scary code in cgen.go's cgen_slice is now explicitly scary. Passes toolstash -cmp. Change-Id: I2dbfb3c959da7ae239f964d83898c204affcabc6 Reviewed-on: https://go-review.googlesource.com/21331 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-30 10:57:47 -07:00
if !t.Elem().IsArray() {
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
s.Fatalf("bad ptr to array in slice %v\n", t)
}
s.nilCheck(v)
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
ptr = s.newValue1(ssa.OpCopy, types.NewPtr(t.Elem().Elem()), v)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
len = s.constInt(types.Types[types.TINT], t.Elem().NumElem())
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
cap = len
default:
s.Fatalf("bad type in slice %v\n", t)
}
// Set default values
if i == nil {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
i = s.constInt(types.Types[types.TINT], 0)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
}
if j == nil {
j = len
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
three := true
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
if k == nil {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
three = false
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
k = cap
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// Panic if slice indices are not in bounds.
// Make sure we check these in reverse order so that we're always
// comparing against a value known to be nonnegative. See issue 28797.
if three {
cmd/compile: avoid implicit bounds checks after explicit checks for append The generated code for the append builtin already checks if the appended to slice is large enough and calls growslice if that is not the case. Trust that this ensures the slice is large enough and avoid the implicit bounds check when slicing the slice to its new size. Removes 365 panicslice calls (-14%) from the go binary which reduces the binary size by ~12kbyte. Change-Id: I1b88418675ff409bc0b956853c9e95241274d5a6 Reviewed-on: https://go-review.googlesource.com/c/119315 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-06-16 01:22:07 +02:00
if k != cap {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
kind := ssa.BoundsSlice3Alen
if t.IsSlice() {
kind = ssa.BoundsSlice3Acap
}
k = s.boundsCheck(k, cap, kind, bounded)
}
if j != k {
j = s.boundsCheck(j, k, ssa.BoundsSlice3B, bounded)
cmd/compile: avoid implicit bounds checks after explicit checks for append The generated code for the append builtin already checks if the appended to slice is large enough and calls growslice if that is not the case. Trust that this ensures the slice is large enough and avoid the implicit bounds check when slicing the slice to its new size. Removes 365 panicslice calls (-14%) from the go binary which reduces the binary size by ~12kbyte. Change-Id: I1b88418675ff409bc0b956853c9e95241274d5a6 Reviewed-on: https://go-review.googlesource.com/c/119315 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-06-16 01:22:07 +02:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.boundsCheck(i, j, ssa.BoundsSlice3C, bounded)
} else {
cmd/compile: reverse order of slice bounds checks Turns out this makes the fix for 28797 unnecessary, because this order ensures that the RHS of IsSliceInBounds ops are always nonnegative. The real reason for this change is that it also makes dealing with <0 values easier for reporting values in bounds check panics (issue #30116). Makes cmd/go negligibly smaller. Update #28797 Change-Id: I1f25ba6d2b3b3d4a72df3105828aa0a4b629ce85 Reviewed-on: https://go-review.googlesource.com/c/go/+/166377 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-03-08 15:01:32 -08:00
if j != k {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
kind := ssa.BoundsSliceAlen
if t.IsSlice() {
kind = ssa.BoundsSliceAcap
}
j = s.boundsCheck(j, k, kind, bounded)
cmd/compile: reverse order of slice bounds checks Turns out this makes the fix for 28797 unnecessary, because this order ensures that the RHS of IsSliceInBounds ops are always nonnegative. The real reason for this change is that it also makes dealing with <0 values easier for reporting values in bounds check panics (issue #30116). Makes cmd/go negligibly smaller. Update #28797 Change-Id: I1f25ba6d2b3b3d4a72df3105828aa0a4b629ce85 Reviewed-on: https://go-review.googlesource.com/c/go/+/166377 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-03-08 15:01:32 -08:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
i = s.boundsCheck(i, j, ssa.BoundsSliceB, bounded)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
}
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// Word-sized integer operations.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
subOp := s.ssaOp(ir.OSUB, types.Types[types.TINT])
mulOp := s.ssaOp(ir.OMUL, types.Types[types.TINT])
andOp := s.ssaOp(ir.OAND, types.Types[types.TINT])
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// Calculate the length (rlen) and capacity (rcap) of the new slice.
// For strings the capacity of the result is unimportant. However,
// we use rcap to test if we've generated a zero-length slice.
// Use length of strings for that.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
rlen := s.newValue2(subOp, types.Types[types.TINT], j, i)
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
rcap := rlen
if j != k && !t.IsString() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
rcap = s.newValue2(subOp, types.Types[types.TINT], k, i)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
}
cmd/compile: use masks instead of branches for slicing When we do var x []byte = ... y := x[i:] We can't just use y.ptr = x.ptr + i, as the new pointer may point to the next object in memory after the backing array. We used to fix this by doing: y.cap = x.cap - i delta := i if y.cap == 0 { delta = 0 } y.ptr = x.ptr + delta That generates a branch in what is otherwise straight-line code. Better to do: y.cap = x.cap - i mask := (y.cap - 1) >> 63 // -1 if y.cap==0, 0 otherwise y.ptr = x.ptr + i &^ mask It's about the same number of instructions (~4, depending on what parts are constant, and the target architecture), but it is all inline. It plays nicely with CSE, and the mask can be computed in parallel with the index (in cases where a multiply is required). It is a minor win in both speed and space. Change-Id: Ied60465a0b8abb683c02208402e5bb7ac0e8370f Reviewed-on: https://go-review.googlesource.com/32022 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-25 15:49:52 -07:00
if (i.Op == ssa.OpConst64 || i.Op == ssa.OpConst32) && i.AuxInt == 0 {
// No pointer arithmetic necessary.
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
return ptr, rlen, rcap
cmd/compile: change the way SSA does slice zero-cap detection There is a special case for slicing s[i:j] when the resulting slice has zero capacity, to prevent pointing to the next object in memory. Change this special case code from: rptr := rcap == 0 ? ptr : ptr+i*elemsize to rptr := ptr + (rcap == 0 ? 0 : i) * elemsize This change leads to slightly smaller generated code, replacing a load with a register zero. old: 0x002e 00046 (slice.go:8) CMPQ BX, $0 0x0032 00050 (slice.go:8) JEQ $0, 78 0x0034 00052 (slice.go:8) MOVQ "".a+8(FP), BP 0x0039 00057 (slice.go:8) LEAQ (BP)(CX*8), AX 0x003e 00062 ... rest of function ... 0x004e 00078 (slice.go:7) MOVQ "".a+8(FP), AX 0x0053 00083 (slice.go:8) JMP 62 new: 0x002e 00046 (slice.go:8) CMPQ BX, $0 0x0032 00050 (slice.go:8) JEQ $0, 78 0x0034 00052 (slice.go:8) MOVQ "".a+8(FP), BP 0x0039 00057 (slice.go:8) LEAQ (BP)(CX*8), AX 0x003e 00062 ... rest of function... 0x004e 00078 (slice.go:8) MOVQ $0, CX 0x0050 00080 (slice.go:8) JMP 52 Change-Id: I2a396616b0d7b090c226a47c92a7ba14b128401f Reviewed-on: https://go-review.googlesource.com/20994 Reviewed-by: David Chase <drchase@google.com>
2016-03-21 15:24:08 -07:00
}
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// Calculate the base pointer (rptr) for the new slice.
//
// Generate the following code assuming that indexes are in bounds.
// The masking is to make sure that we don't generate a slice
// that points to the next object in memory. We cannot just set
// the pointer to nil because then we would create a nil slice or
// string.
//
// rcap = k - i
// rlen = j - i
// rptr = ptr + (mask(rcap) & (i * stride))
//
// Where mask(x) is 0 if x==0 and -1 if x>0 and stride is the width
// of the element type.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
stride := s.constInt(types.Types[types.TINT], ptr.Type.Elem().Width)
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// The delta is the number of bytes to offset ptr by.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
delta := s.newValue2(mulOp, types.Types[types.TINT], i, stride)
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// If we're slicing to the point where the capacity is zero,
// zero out the delta.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
mask := s.newValue1(ssa.OpSlicemask, types.Types[types.TINT], rcap)
delta = s.newValue2(andOp, types.Types[types.TINT], delta, mask)
cmd/compile/internal/gc: minor cleanup of slicing Tidy the code up a little bit to move variable definitions closer to uses, prefer early return to else branches and some other minor tweaks. I'd like to make some more changes to this code in the near future and this CL should make those changes cleaner. Change-Id: Ie7d7f2e4bb1e670347941e255c9cdc1703282db5 Reviewed-on: https://go-review.googlesource.com/c/go/+/170120 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-03-30 14:11:05 +00:00
// Compute rptr = ptr + delta.
rptr := s.newValue2(ssa.OpAddPtr, ptr.Type, ptr, delta)
[dev.ssa] cmd/compile/internal/ssa: implement slice opcodes Implement OSLICE, OSLICEARR, OSLICESTR, OSLICE3, OSLICE3ARR. reviewer: Ignore the code in OINDEX, that's from CL 14466. Change-Id: I00cc8aecd4c6f40ea5517cd660bb0ce759d91171 Reviewed-on: https://go-review.googlesource.com/14538 Reviewed-by: Todd Neal <todd@tneal.org>
2015-09-12 23:27:26 -07:00
return rptr, rlen, rcap
}
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
type u642fcvtTab struct {
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
leq, cvt2F, and, rsh, or, add ssa.Op
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
one func(*state, *types.Type, int64) *ssa.Value
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var u64_f64 = u642fcvtTab{
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
leq: ssa.OpLeq64,
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
cvt2F: ssa.OpCvt64to64F,
and: ssa.OpAnd64,
rsh: ssa.OpRsh64Ux64,
or: ssa.OpOr64,
add: ssa.OpAdd64F,
one: (*state).constInt64,
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var u64_f32 = u642fcvtTab{
cmd/compile: remove Greater* and Geq* generic integer ops The generic Greater and Geq ops can always be replaced with the Less and Leq ops. This CL therefore removes them. This simplifies the compiler since it reduces the number of operations that need handling in both code and in rewrite rules. This will be especially true when adding control flow optimizations such as the integer-in-range optimizations in CL 165998. Change-Id: If0648b2b19998ac1bddccbf251283f3be4ec3040 Reviewed-on: https://go-review.googlesource.com/c/go/+/220417 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-02-20 17:46:08 +00:00
leq: ssa.OpLeq64,
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
cvt2F: ssa.OpCvt64to32F,
and: ssa.OpAnd64,
rsh: ssa.OpRsh64Ux64,
or: ssa.OpOr64,
add: ssa.OpAdd32F,
one: (*state).constInt64,
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint64Tofloat64(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint64Tofloat(&u64_f64, n, x, ft, tt)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint64Tofloat32(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint64Tofloat(&u64_f32, n, x, ft, tt)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint64Tofloat(cvttab *u642fcvtTab, n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
// if x >= 0 {
// result = (floatY) x
// } else {
// y = uintX(x) ; y = x & 1
// z = uintX(x) ; z = z >> 1
// z = z >> 1
// z = z | y
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
// result = floatY(z)
// result = result + result
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
// }
//
// Code borrowed from old code generator.
// What's going on: large 64-bit "unsigned" looks like
// negative number to hardware's integer-to-float
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// conversion. However, because the mantissa is only
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
// 63 bits, we don't need the LSB, so instead we do an
// unsigned right shift (divide by two), convert, and
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// double. However, before we do that, we need to be
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
// sure that we do not lose a "1" if that made the
all: single space after period. The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-01 23:21:55 +00:00
// difference in the resulting rounding. Therefore, we
// preserve it, and OR (not ADD) it back in. The case
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
// that matters is when the eleven discarded bits are
// equal to 10000000001; that rounds up, and the 1 cannot
// be lost else it would round down if the LSB of the
// candidate mantissa is 0.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp := s.newValue2(cvttab.leq, types.Types[types.TBOOL], s.zeroVal(ft), x)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(cmp)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
b.Likely = ssa.BranchLikely
bThen := s.f.NewBlock(ssa.BlockPlain)
bElse := s.f.NewBlock(ssa.BlockPlain)
bAfter := s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bThen)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
s.startBlock(bThen)
a0 := s.newValue1(cvttab.cvt2F, tt, x)
s.vars[n] = a0
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bThen.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bElse)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
s.startBlock(bElse)
one := cvttab.one(s, ft, 1)
y := s.newValue2(cvttab.and, ft, x, one)
z := s.newValue2(cvttab.rsh, ft, x, one)
z = s.newValue2(cvttab.or, ft, z, y)
a := s.newValue1(cvttab.cvt2F, tt, z)
a1 := s.newValue2(cvttab.add, tt, a, a)
s.vars[n] = a1
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bElse.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
s.startBlock(bAfter)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.variable(n, n.Type())
[dev.ssa] cmd/compile: add [u]int and FP to FP conversions Change-Id: I8c17f706a3e0f1fa2d754bfb4ccd1f7a027cb3db Reviewed-on: https://go-review.googlesource.com/13744 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-20 15:14:20 -04:00
}
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
type u322fcvtTab struct {
cvtI2F, cvtF2F ssa.Op
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var u32_f64 = u322fcvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
cvtI2F: ssa.OpCvt32to64F,
cvtF2F: ssa.OpCopy,
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var u32_f32 = u322fcvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
cvtI2F: ssa.OpCvt32to32F,
cvtF2F: ssa.OpCvt64Fto32F,
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint32Tofloat64(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint32Tofloat(&u32_f64, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint32Tofloat32(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.uint32Tofloat(&u32_f32, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) uint32Tofloat(cvttab *u322fcvtTab, n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// if x >= 0 {
// result = floatY(x)
// } else {
// result = floatY(float64(x) + (1<<32))
// }
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp := s.newValue2(ssa.OpLeq32, types.Types[types.TBOOL], s.zeroVal(ft), x)
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(cmp)
b.Likely = ssa.BranchLikely
bThen := s.f.NewBlock(ssa.BlockPlain)
bElse := s.f.NewBlock(ssa.BlockPlain)
bAfter := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bThen)
s.startBlock(bThen)
a0 := s.newValue1(cvttab.cvtI2F, tt, x)
s.vars[n] = a0
s.endBlock()
bThen.AddEdgeTo(bAfter)
b.AddEdgeTo(bElse)
s.startBlock(bElse)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
a1 := s.newValue1(ssa.OpCvt32to64F, types.Types[types.TFLOAT64], x)
twoToThe32 := s.constFloat64(types.Types[types.TFLOAT64], float64(1<<32))
a2 := s.newValue2(ssa.OpAdd64F, types.Types[types.TFLOAT64], a1, twoToThe32)
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
a3 := s.newValue1(cvttab.cvtF2F, tt, a2)
s.vars[n] = a3
s.endBlock()
bElse.AddEdgeTo(bAfter)
s.startBlock(bAfter)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.variable(n, n.Type())
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
}
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// referenceTypeBuiltin generates code for the len/cap builtins for maps and channels.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) referenceTypeBuiltin(n ir.Node, x *ssa.Value) *ssa.Value {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if !n.Left().Type().IsMap() && !n.Left().Type().IsChan() {
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
s.Fatalf("node must be a map or a channel")
}
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
// if n == nil {
// return 0
// } else {
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// // len
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
// return *((*int)n)
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// // cap
// return *(((*int)n)+1)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
// }
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
lenType := n.Type()
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
nilValue := s.constNil(types.Types[types.TUINTPTR])
cmp := s.newValue2(ssa.OpEqPtr, types.Types[types.TBOOL], x, nilValue)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(cmp)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
b.Likely = ssa.BranchUnlikely
bThen := s.f.NewBlock(ssa.BlockPlain)
bElse := s.f.NewBlock(ssa.BlockPlain)
bAfter := s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// length/capacity of a nil map/chan is zero
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bThen)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
s.startBlock(bThen)
s.vars[n] = s.zeroVal(lenType)
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bThen.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bElse)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
s.startBlock(bElse)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
switch n.Op() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OLEN:
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// length is stored in the first word for map/chan
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.vars[n] = s.load(lenType, x)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
case ir.OCAP:
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
// capacity is stored in the second word for chan
sw := s.newValue1I(ssa.OpOffPtr, lenType.PtrTo(), lenType.Width, x)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
s.vars[n] = s.load(lenType, sw)
cmd/compile: make more use of value switches Use them to replace if/else chains with at least three comparisons, where the code becomes clearly simpler. Passes toolstash -cmp on std cmd. Change-Id: Ic98aa3905944ddcab5aef5f9d9ba376853263d94 Reviewed-on: https://go-review.googlesource.com/70934 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> Run-TryBot: Emmanuel Odeke <emm.odeke@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-15 22:49:52 +01:00
default:
[dev.ssa] cmd/compile: implement len/cap(chan) Change-Id: I1453ba226376ccd4d79780fc0686876d6dde01ee Reviewed-on: https://go-review.googlesource.com/14027 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 15:56:43 -05:00
s.Fatalf("op must be OLEN or OCAP")
}
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bElse.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: implement len(map) Implement len(map) values. Change-Id: If92be96ec9a7a86aeb3ce566d6758aab01c2fa7d Reviewed-on: https://go-review.googlesource.com/13961 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 18:40:52 -05:00
s.startBlock(bAfter)
return s.variable(n, lenType)
}
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
type f2uCvtTab struct {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
ltf, cvt2U, subf, or ssa.Op
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
floatValue func(*state, *types.Type, float64) *ssa.Value
intValue func(*state, *types.Type, int64) *ssa.Value
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
cutoff uint64
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var f32_u64 = f2uCvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
ltf: ssa.OpLess32F,
cvt2U: ssa.OpCvt32Fto64,
subf: ssa.OpSub32F,
or: ssa.OpOr64,
floatValue: (*state).constFloat32,
intValue: (*state).constInt64,
cmd/compile: minor cleanup Use constants that are easier to read. Change-Id: I11fd6363b3bd283a4cc7c9908c2327123c64dcf7 Reviewed-on: https://go-review.googlesource.com/c/go/+/169723 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-03-25 16:06:16 -07:00
cutoff: 1 << 63,
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var f64_u64 = f2uCvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
ltf: ssa.OpLess64F,
cvt2U: ssa.OpCvt64Fto64,
subf: ssa.OpSub64F,
or: ssa.OpOr64,
floatValue: (*state).constFloat64,
intValue: (*state).constInt64,
cmd/compile: minor cleanup Use constants that are easier to read. Change-Id: I11fd6363b3bd283a4cc7c9908c2327123c64dcf7 Reviewed-on: https://go-review.googlesource.com/c/go/+/169723 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-03-25 16:06:16 -07:00
cutoff: 1 << 63,
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var f32_u32 = f2uCvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
ltf: ssa.OpLess32F,
cvt2U: ssa.OpCvt32Fto32,
subf: ssa.OpSub32F,
or: ssa.OpOr32,
floatValue: (*state).constFloat32,
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
intValue: func(s *state, t *types.Type, v int64) *ssa.Value { return s.constInt32(t, int32(v)) },
cmd/compile: minor cleanup Use constants that are easier to read. Change-Id: I11fd6363b3bd283a4cc7c9908c2327123c64dcf7 Reviewed-on: https://go-review.googlesource.com/c/go/+/169723 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-03-25 16:06:16 -07:00
cutoff: 1 << 31,
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
}
cmd/compile: remove some redundant types in decls As per golint's suggestions. Change-Id: Ie0c6ad9aa5dc69966a279562a341c7b095c47ede Reviewed-on: https://go-review.googlesource.com/64192 Run-TryBot: Daniel Martí <mvdan@mvdan.cc> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-09-16 22:11:43 +01:00
var f64_u32 = f2uCvtTab{
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
ltf: ssa.OpLess64F,
cvt2U: ssa.OpCvt64Fto32,
subf: ssa.OpSub64F,
or: ssa.OpOr32,
floatValue: (*state).constFloat64,
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
intValue: func(s *state, t *types.Type, v int64) *ssa.Value { return s.constInt32(t, int32(v)) },
cmd/compile: minor cleanup Use constants that are easier to read. Change-Id: I11fd6363b3bd283a4cc7c9908c2327123c64dcf7 Reviewed-on: https://go-review.googlesource.com/c/go/+/169723 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-03-25 16:06:16 -07:00
cutoff: 1 << 31,
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) float32ToUint64(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
return s.floatToUint(&f32_u64, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) float64ToUint64(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
return s.floatToUint(&f64_u64, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) float32ToUint32(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.floatToUint(&f32_u32, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) float64ToUint32(n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
return s.floatToUint(&f64_u32, n, x, ft, tt)
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) floatToUint(cvttab *f2uCvtTab, n ir.Node, x *ssa.Value, ft, tt *types.Type) *ssa.Value {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// cutoff:=1<<(intY_Size-1)
// if x < floatX(cutoff) {
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
// result = uintY(x)
// } else {
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// y = x - floatX(cutoff)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
// z = uintY(y)
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
// result = z | -(cutoff)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
// }
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
cutoff := cvttab.floatValue(s, ft, float64(cvttab.cutoff))
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cmp := s.newValue2(cvttab.ltf, types.Types[types.TBOOL], x, cutoff)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(cmp)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
b.Likely = ssa.BranchLikely
bThen := s.f.NewBlock(ssa.BlockPlain)
bElse := s.f.NewBlock(ssa.BlockPlain)
bAfter := s.f.NewBlock(ssa.BlockPlain)
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bThen)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
s.startBlock(bThen)
a0 := s.newValue1(cvttab.cvt2U, tt, x)
s.vars[n] = a0
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bThen.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
b.AddEdgeTo(bElse)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
s.startBlock(bElse)
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
y := s.newValue2(cvttab.subf, ft, x, cutoff)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
y = s.newValue1(cvttab.cvt2U, tt, y)
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
z := cvttab.intValue(s, tt, int64(-cvttab.cutoff))
a1 := s.newValue2(cvttab.or, tt, y, z)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
s.vars[n] = a1
s.endBlock()
[dev.ssa] cmd/compile: move addEdge function to ssa addEdge had two identical implementations so make it an exported method on Block. Change-Id: I8c21655a9dc5074fefd7f63b2f5b51897571e608 Reviewed-on: https://go-review.googlesource.com/14040 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-28 21:36:29 -05:00
bElse.AddEdgeTo(bAfter)
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
s.startBlock(bAfter)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.variable(n, n.Type())
[dev.ssa] cmd/compile: added floating point to [u]int conversions Change-Id: I8dee400aef07165f911750de2615b8757f826000 Reviewed-on: https://go-review.googlesource.com/13945 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-26 14:25:40 -04:00
}
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
// dottype generates SSA for a type assertion node.
// commaok indicates whether to panic or return a bool.
// If commaok is false, resok will be nil.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) dottype(n ir.Node, commaok bool) (res, resok *ssa.Value) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
iface := s.expr(n.Left()) // input interface
target := s.expr(n.Right()) // target type
cmd/compile: add more types to ssa.Types This reduces the number of calls back into the gc Type routines, which will help performance in a concurrent backend. It also reduces the number of callsites that must be considered in making the transition. Passes toolstash-check -all. No compiler performance changes. Updates #15756 Change-Id: Ic7a8f1daac7e01a21658ae61ac118b2a70804117 Reviewed-on: https://go-review.googlesource.com/38340 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-18 10:16:03 -07:00
byteptr := s.f.Config.Types.BytePtr
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().IsInterface() {
if n.Type().IsEmptyInterface() {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// Converting to an empty interface.
// Input could be an empty or nonempty interface.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.TypeAssert > 0 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "type assertion inlined")
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
// Get itab/type field from input.
itab := s.newValue1(ssa.OpITab, byteptr, iface)
// Conversion succeeds iff that field is not nil.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cond := s.newValue2(ssa.OpNeqPtr, types.Types[types.TBOOL], itab, s.constNil(byteptr))
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsEmptyInterface() && commaok {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// Converting empty interface to empty interface with ,ok is just a nil check.
return iface, cond
}
// Branch on nilness.
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(cond)
b.Likely = ssa.BranchLikely
bOk := s.f.NewBlock(ssa.BlockPlain)
bFail := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bOk)
b.AddEdgeTo(bFail)
if !commaok {
// On failure, panic by calling panicnildottype.
s.startBlock(bFail)
s.rtcall(panicnildottype, false, nil, target)
// On success, return (perhaps modified) input interface.
s.startBlock(bOk)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsEmptyInterface() {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
res = iface // Use input interface unchanged.
return
}
// Load type out of itab, build interface with existing idata.
off := s.newValue1I(ssa.OpOffPtr, byteptr, int64(Widthptr), itab)
cmd/compile: refactor memory op constructors in SSA builder Pulling these operations out separately so it's easier to add instrumentation calls. Passes toolstash-check. Updates #19054. Change-Id: If6a537124a87bac2eceff1d66d9df5ebb3bf07be Reviewed-on: https://go-review.googlesource.com/102816 Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-03-27 13:35:39 -07:00
typ := s.load(byteptr, off)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
idata := s.newValue1(ssa.OpIData, n.Type(), iface)
res = s.newValue2(ssa.OpIMake, n.Type(), typ, idata)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
return
}
s.startBlock(bOk)
// nonempty -> empty
// Need to load type from itab
off := s.newValue1I(ssa.OpOffPtr, byteptr, int64(Widthptr), itab)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[typVar] = s.load(byteptr, off)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
s.endBlock()
// itab is nil, might as well use that as the nil result.
s.startBlock(bFail)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[typVar] = itab
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
s.endBlock()
// Merge point.
bEnd := s.f.NewBlock(ssa.BlockPlain)
bOk.AddEdgeTo(bEnd)
bFail.AddEdgeTo(bEnd)
s.startBlock(bEnd)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
idata := s.newValue1(ssa.OpIData, n.Type(), iface)
res = s.newValue2(ssa.OpIMake, n.Type(), s.variable(typVar, byteptr), idata)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
resok = cond
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
delete(s.vars, typVar)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
return
}
// converting to a nonempty interface needs a runtime call.
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.TypeAssert > 0 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "type assertion not inlined")
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsEmptyInterface() {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if commaok {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
call := s.rtcall(assertE2I2, true, []*types.Type{n.Type(), types.Types[types.TBOOL]}, target, iface)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
return call[0], call[1]
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.rtcall(assertE2I, true, []*types.Type{n.Type()}, target, iface)[0], nil
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
if commaok {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
call := s.rtcall(assertI2I2, true, []*types.Type{n.Type(), types.Types[types.TBOOL]}, target, iface)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
return call[0], call[1]
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.rtcall(assertI2I, true, []*types.Type{n.Type()}, target, iface)[0], nil
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.TypeAssert > 0 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "type assertion inlined")
[dev.ssa] cmd/compile: default compile+test with SSA Some tests disabled, some bifurcated into _ssa and not, with appropriate logging added to compiler. "tests/live.go" in particular needs attention. SSA-specific testing removed, since it's all SSA now. Added "-run_skips" option to tests/run.go to simplify checking whether a test still fails (or how it fails) on a skipped platform. The compiler now compiles with SSA by default. If you don't want SSA, specify GOSSAHASH=n (or N) as an environment variable. Function names ending in "_ssa" are always SSA-compiled. GOSSAFUNC=fname retains its "SSA for fname, log to ssa.html" GOSSAPKG=pkg only has an effect when GOSSAHASH=n GOSSAHASH=10101 etc retains its name-hash-matching behavior for purposes of debugging. See #13068 Change-Id: I8217bfeb34173533eaeb391b5f6935483c7d6b43 Reviewed-on: https://go-review.googlesource.com/16299 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-26 17:34:06 -04:00
}
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// Converting to a concrete type.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
direct := isdirectiface(n.Type())
cmd/compile: optimize non-empty-interface type conversions When doing i.(T) for non-empty-interface i and concrete type T, there's no need to read the type out of the itab. Just compare the itab to the itab we expect for that interface/type pair. Also optimize type switches by putting the type hash of the concrete type in the itab. That way we don't need to load the type pointer out of the itab. Update #18492 Change-Id: I49e280a21e5687e771db5b8a56b685291ac168ce Reviewed-on: https://go-review.googlesource.com/34810 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-01-03 16:15:38 -08:00
itab := s.newValue1(ssa.OpITab, byteptr, iface) // type word of interface
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Debug.TypeAssert > 0 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(n.Pos(), "type assertion inlined")
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
cmd/compile: optimize non-empty-interface type conversions When doing i.(T) for non-empty-interface i and concrete type T, there's no need to read the type out of the itab. Just compare the itab to the itab we expect for that interface/type pair. Also optimize type switches by putting the type hash of the concrete type in the itab. That way we don't need to load the type pointer out of the itab. Update #18492 Change-Id: I49e280a21e5687e771db5b8a56b685291ac168ce Reviewed-on: https://go-review.googlesource.com/34810 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-01-03 16:15:38 -08:00
var targetITab *ssa.Value
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Left().Type().IsEmptyInterface() {
cmd/compile: optimize non-empty-interface type conversions When doing i.(T) for non-empty-interface i and concrete type T, there's no need to read the type out of the itab. Just compare the itab to the itab we expect for that interface/type pair. Also optimize type switches by putting the type hash of the concrete type in the itab. That way we don't need to load the type pointer out of the itab. Update #18492 Change-Id: I49e280a21e5687e771db5b8a56b685291ac168ce Reviewed-on: https://go-review.googlesource.com/34810 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-01-03 16:15:38 -08:00
// Looking for pointer to target type.
targetITab = target
} else {
// Looking for pointer to itab for target type and source interface.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
targetITab = s.expr(n.List().First())
cmd/compile: optimize non-empty-interface type conversions When doing i.(T) for non-empty-interface i and concrete type T, there's no need to read the type out of the itab. Just compare the itab to the itab we expect for that interface/type pair. Also optimize type switches by putting the type hash of the concrete type in the itab. That way we don't need to load the type pointer out of the itab. Update #18492 Change-Id: I49e280a21e5687e771db5b8a56b685291ac168ce Reviewed-on: https://go-review.googlesource.com/34810 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-01-03 16:15:38 -08:00
}
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
var tmp ir.Node // temporary for use with large types
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
var addr *ssa.Value // address of tmp
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if commaok && !canSSAType(n.Type()) {
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// unSSAable type, use temporary.
// TODO: get rid of some of these temporaries.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
tmp = tempAt(n.Pos(), s.curfn, n.Type())
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarDef, types.TypeMem, tmp, s.mem())
cmd/compile: simplify state.addr OADDR nodes can't be bounded. All calls to state.addr thus pass false. Remove the argument. Passes toolstash-check. Change-Id: I9a3fcf37f63b2b5094e043d39ab3b857b5090e91 Reviewed-on: https://go-review.googlesource.com/c/go/+/228788 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-04-17 12:40:57 -07:00
addr = s.addr(tmp)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
cond := s.newValue2(ssa.OpEqPtr, types.Types[types.TBOOL], itab, targetITab)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
b := s.endBlock()
b.Kind = ssa.BlockIf
cmd/compile: keep value use counts in SSA Keep track of how many uses each Value has. Each appearance in Value.Args and in Block.Control counts once. The number of uses of a value is generically useful to constrain rewrite rules. For instance, we might want to prevent merging index operations into loads if the same index expression is used lots of times. But I have one use in particular for which the use count is required. We must make sure we don't combine ops with loads if the load has more than one use. Otherwise, we may split a single load into multiple loads and that breaks perceived behavior in the presence of races. In particular, the load of m.state in sync/mutex.go:Lock can't be done twice. (I have a separate CL which triggers the mutex failure. This CL has a test which demonstrates a similar failure.) Change-Id: Icaafa479239f48632a069d0c3f624e6ebc6b1f0e Reviewed-on: https://go-review.googlesource.com/20790 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Todd Neal <todd@tneal.org>
2016-03-15 20:45:50 -07:00
b.SetControl(cond)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
b.Likely = ssa.BranchLikely
bOk := s.f.NewBlock(ssa.BlockPlain)
bFail := s.f.NewBlock(ssa.BlockPlain)
b.AddEdgeTo(bOk)
b.AddEdgeTo(bFail)
if !commaok {
// on failure, panic by calling panicdottype
s.startBlock(bFail)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
taddr := s.expr(n.Right().Right())
if n.Left().Type().IsEmptyInterface() {
cmd/compile: optimize non-empty-interface type conversions When doing i.(T) for non-empty-interface i and concrete type T, there's no need to read the type out of the itab. Just compare the itab to the itab we expect for that interface/type pair. Also optimize type switches by putting the type hash of the concrete type in the itab. That way we don't need to load the type pointer out of the itab. Update #18492 Change-Id: I49e280a21e5687e771db5b8a56b685291ac168ce Reviewed-on: https://go-review.googlesource.com/34810 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2017-01-03 16:15:38 -08:00
s.rtcall(panicdottypeE, false, nil, itab, target, taddr)
} else {
s.rtcall(panicdottypeI, false, nil, itab, target, taddr)
}
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// on success, return data from interface
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
s.startBlock(bOk)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if direct {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return s.newValue1(ssa.OpIData, n.Type(), iface), nil
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.newValue1(ssa.OpIData, types.NewPtr(n.Type()), iface)
return s.load(n.Type(), p), nil
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
}
// commaok is the more complicated case because we have
// a control flow merge point.
bEnd := s.f.NewBlock(ssa.BlockPlain)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
// Note that we need a new valVar each time (unlike okVar where we can
// reuse the variable) because it might have a different type every time.
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
valVar := ssaMarker("val")
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
// type assertion succeeded
s.startBlock(bOk)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if tmp == nil {
if direct {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.vars[valVar] = s.newValue1(ssa.OpIData, n.Type(), iface)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.newValue1(ssa.OpIData, types.NewPtr(n.Type()), iface)
s.vars[valVar] = s.load(n.Type(), p)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
p := s.newValue1(ssa.OpIData, types.NewPtr(n.Type()), iface)
s.move(n.Type(), addr, p)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[okVar] = s.constBool(true)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
s.endBlock()
bOk.AddEdgeTo(bEnd)
// type assertion failed
s.startBlock(bFail)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if tmp == nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.vars[valVar] = s.zeroVal(n.Type())
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s.zero(n.Type(), addr)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[okVar] = s.constBool(false)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
s.endBlock()
bFail.AddEdgeTo(bEnd)
// merge point
s.startBlock(bEnd)
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
if tmp == nil {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
res = s.variable(valVar, n.Type())
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
delete(s.vars, valVar)
} else {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
res = s.load(n.Type(), addr)
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
s.vars[memVar] = s.newValue1A(ssa.OpVarKill, types.TypeMem, tmp, s.mem())
cmd/compile: do more type conversion inline The code to do the conversion is smaller than the call to the runtime. The 1-result asserts need to call panic if they fail, but that code is out of line. The only conversions left in the runtime are those which might allocate and those which might need to generate an itab. Given the following types: type E interface{} type I interface { foo() } type I2 iterface { foo(); bar() } type Big [10]int func (b Big) foo() { ... } This CL inlines the following conversions: was assertE2T var e E = ... b := i.(Big) was assertE2T2 var e E = ... b, ok := i.(Big) was assertI2T var i I = ... b := i.(Big) was assertI2T2 var i I = ... b, ok := i.(Big) was assertI2E var i I = ... e := i.(E) was assertI2E2 var i I = ... e, ok := i.(E) These are the remaining runtime calls: convT2E: var b Big = ... var e E = b convT2I: var b Big = ... var i I = b convI2I: var i2 I2 = ... var i I = i2 assertE2I: var e E = ... i := e.(I) assertE2I2: var e E = ... i, ok := e.(I) assertI2I: var i I = ... i2 := i.(I2) assertI2I2: var i I = ... i2, ok := i.(I2) Fixes #17405 Fixes #8422 Change-Id: Ida2367bf8ce3cd2c6bb599a1814f1d275afabe21 Reviewed-on: https://go-review.googlesource.com/32313 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-28 11:37:45 -07:00
}
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
resok = s.variable(okVar, types.Types[types.TBOOL])
delete(s.vars, okVar)
[dev.ssa] cmd/compile: implement ODOTTYPE and OAS2DOTTYPE Taken over and completed from Josh's change https://go-review.googlesource.com/#/c/14524/ Change-Id: If5d4f732843cc3e99bd5edda54458f0a8be73e91 Reviewed-on: https://go-review.googlesource.com/14690 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-09-17 10:31:16 -07:00
return res, resok
}
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
// variable returns the value of a variable at the current location.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) variable(name ir.Node, t *types.Type) *ssa.Value {
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
v := s.vars[name]
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
if v != nil {
return v
[dev.ssa] cmd/compile: optimize phi ops Redo how we keep track of forward references when building SSA. When the forward reference is resolved, update the Value node in place. Improve the phi elimination pass so it can simplify phis of phis. Give SSA package access to decoded line numbers. Fix line numbers for constant booleans. Change-Id: I3dc9896148d260be2f3dd14cbe5db639ec9fa6b7 Reviewed-on: https://go-review.googlesource.com/18674 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-01-14 16:02:23 -08:00
}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
v = s.fwdVars[name]
if v != nil {
return v
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
if s.curBlock == s.f.Entry {
// No variable should be live at entry.
s.Fatalf("Value live at entry. It shouldn't be. func %s, node %v, value %v", s.f.Name, name, v)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
// Make a FwdRef, which records a value that's live on block input.
// We'll find the matching definition as part of insertPhis.
v = s.newValue0A(ssa.OpFwdRef, t, name)
s.fwdVars[name] = v
[dev.ssa] cmd/compile: optimize phi ops Redo how we keep track of forward references when building SSA. When the forward reference is resolved, update the Value node in place. Improve the phi elimination pass so it can simplify phis of phis. Give SSA package access to decoded line numbers. Fix line numbers for constant booleans. Change-Id: I3dc9896148d260be2f3dd14cbe5db639ec9fa6b7 Reviewed-on: https://go-review.googlesource.com/18674 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-01-14 16:02:23 -08:00
s.addNamedValue(name, v)
[dev.ssa] cmd/internal/gc: convert standard IR into SSA. Hook into the current compiler to convert the existing IR (after walk) into SSA. Any function ending in "_ssa" will take this path. The resulting assembly is printed and then discarded. Use gc.Type directly in ssa instead of a wrapper for go types. It makes the IR->SSA rewrite a lot simpler. Only a few opcodes are implemented in this change. It is enough to compile simple examples like func f(p *int) int { return *p } func g(a []int, i int) int { return a[i] } Change-Id: I5e18841b752a83ca0519aa1b2d36ef02ce1de6f9 Reviewed-on: https://go-review.googlesource.com/8971 Reviewed-by: Alan Donovan <adonovan@google.com>
2015-04-15 15:51:25 -07:00
return v
}
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
func (s *state) mem() *ssa.Value {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
return s.variable(memVar, types.TypeMem)
cmd/compile: Use Sreedhar+Gao phi building algorithm Should be more asymptotically happy. We process each variable in turn to find all the locations where it needs a phi (the dominance frontier of all of its definitions). Then we add all those phis. This takes O(n * #variables), although hopefully much less. Then we do a single tree walk to match all the FwdRefs with the nearest definition or phi. This takes O(n) time. The one remaining inefficiency is that we might end up introducing a bunch of dead phis in the first step. A TODO is to introduce phis only where they might be used by a read. The old algorithm is still faster on small functions, so there's a cutover size (currently 500 blocks). This algorithm supercedes the David's sparse phi placement algorithm for large functions. Lowers compile time of example from #14934 from ~10 sec to ~4 sec. Lowers compile time of example from #16361 from ~4.5 sec to ~3 sec. Lowers #16407 from ~20 min to ~30 sec. Update #14934 Update #16361 Fixes #16407 Change-Id: I1cff6364e1623c143190b6a924d7599e309db58f Reviewed-on: https://go-review.googlesource.com/30163 Reviewed-by: David Chase <drchase@google.com>
2016-09-30 10:12:32 -07:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (s *state) addNamedValue(n ir.Node, v *ssa.Value) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.Pxxx {
[dev.regabi] cmd/compile: rewrite problematic use of Node fields For the upcoming rewrite to access methods, a few direct accesses are problematic for the automated tool, most notably direct copies or use of Node structs as opposed to pointers. Fix these manually. Passes toolstash -cmp. Change-Id: I8bdbb33216737c09e1edda284d5c414422d86284 Reviewed-on: https://go-review.googlesource.com/c/go/+/273006 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 12:09:08 -05:00
// Don't track our marker nodes (memVar etc.).
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
return
}
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
if ir.IsAutoTmp(n) {
cmd/compile: mark temps with new AutoTemp flag, and use it. This is an extension of https://go-review.googlesource.com/c/31662/ to mark all the temporaries, not just the ssa-generated ones. Before-and-after ls -l `go tool -n compile` shows a 3% reduction in size (or rather, a prior 3% inflation for failing to filter temps out properly.) Replaced name-dependent "is it a temp?" tests with calls to *Node.IsAutoTmp(), which depends on AutoTemp. Also replace calls to istemp(n) with n.IsAutoTmp(), to reduce duplication and clean up function name space. Generated temporaries now come with a "." prefix to avoid (apparently harmless) clashes with legal Go variable names. Fixes #17644. Fixes #17240. Change-Id: If1417f29c79a7275d7303ddf859b51472890fd43 Reviewed-on: https://go-review.googlesource.com/32255 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-28 13:33:57 -04:00
// Don't track temporary variables.
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
return
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.PPARAMOUT {
cmd/compile: don't use PPARAMOUT names for temps The location of VARDEFs is incorrect for PPARAMOUT variables which are also used as temporary locations. We put in VARDEFs when setting the variable at return time, but when the location is also used as a temporary the lifetime values are wrong. Fix copyelim to update the names map properly. This is a real name bug fix which, as a result, allows me to write a reasonable test to trigger the PPARAMOUT bug. This is kind of a band-aid fix for #14591. A more pricipled fix (which allows values to be stored in the return variable earlier than the return point) will be harder. Fixes #14591 Change-Id: I7df8ae103a982d1f218ed704c080d7b83cdcfdd9 Reviewed-on: https://go-review.googlesource.com/20457 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-03-08 20:09:48 -08:00
// Don't track named output values. This prevents return values
// from being assigned too early. See #14591 and #14762. TODO: allow this.
return
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Class() == ir.PAUTO && n.Offset() != 0 {
s.Fatalf("AUTO var with offset %v %d", n, n.Offset())
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
loc := ssa.LocalSlot{N: n, Type: n.Type(), Off: 0}
[dev.ssa] cmd/compile: start arguments as spilled Declare a function's arguments as having already been spilled so their use just requires a restore. Allow spill locations to be portions of larger objects the stack. Required to load portions of compound input arguments. Rename the memory input to InputMem. Use Arg for the pre-spilled argument values. Change-Id: I8fe2a03ffbba1022d98bfae2052b376b96d32dda Reviewed-on: https://go-review.googlesource.com/16536 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 08:10:26 -08:00
values, ok := s.f.NamedValues[loc]
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
if !ok {
[dev.ssa] cmd/compile: start arguments as spilled Declare a function's arguments as having already been spilled so their use just requires a restore. Allow spill locations to be portions of larger objects the stack. Required to load portions of compound input arguments. Rename the memory input to InputMem. Use Arg for the pre-spilled argument values. Change-Id: I8fe2a03ffbba1022d98bfae2052b376b96d32dda Reviewed-on: https://go-review.googlesource.com/16536 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 08:10:26 -08:00
s.f.Names = append(s.f.Names, loc)
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
}
[dev.ssa] cmd/compile: start arguments as spilled Declare a function's arguments as having already been spilled so their use just requires a restore. Allow spill locations to be portions of larger objects the stack. Required to load portions of compound input arguments. Rename the memory input to InputMem. Use Arg for the pre-spilled argument values. Change-Id: I8fe2a03ffbba1022d98bfae2052b376b96d32dda Reviewed-on: https://go-review.googlesource.com/16536 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 08:10:26 -08:00
s.f.NamedValues[loc] = append(values, v)
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
// Generate a disconnected call to a runtime routine and a return.
func gencallret(pp *Progs, sym *obj.LSym) *obj.Prog {
p := pp.Prog(obj.ACALL)
p.To.Type = obj.TYPE_MEM
p.To.Name = obj.NAME_EXTERN
p.To.Sym = sym
p = pp.Prog(obj.ARET)
return p
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// Branch is an unresolved branch.
type Branch struct {
P *obj.Prog // branch instruction
B *ssa.Block // target
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// SSAGenState contains state needed during Prog generation.
type SSAGenState struct {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
pp *Progs
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// Branches remembers all the branch instructions we've seen
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
// and where they would like to go.
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
Branches []Branch
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
// bstart remembers where each block starts (indexed by block ID)
bstart []*obj.Prog
[dev.ssa] cmd/compile: implement GO386=387 Last part of the 386 SSA port. Modify the x86 backend to simulate SSE registers and instructions with 387 registers and instructions. The simulation isn't terribly performant, but it works, and the old implementation wasn't very performant either. Leaving to people who care about 387 to optimize if they want. Turn on SSA backend for 386 by default. Fixes #16358 Change-Id: I678fb59132620b2c47e993c1c10c4c21135f70c0 Reviewed-on: https://go-review.googlesource.com/25271 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-07-26 11:51:33 -07:00
all: drop 387 support My last 387 CL. So sad ... ... ... ... not! Fixes #40255 Change-Id: I8d4ddb744b234b8adc735db2f7c3c7b6d8bbdfa4 Reviewed-on: https://go-review.googlesource.com/c/go/+/258957 Trust: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-10-01 14:49:33 -07:00
// Some architectures require a 64-bit temporary for FP-related register shuffling. Examples include PPC and Sparc V8.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
ScratchFpMem ir.Node
cmd/compile: make Maxarg local Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: I1294058716d83dd1be495d399ed7ab2277754dc6 Reviewed-on: https://go-review.googlesource.com/38329 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 08:58:36 -07:00
maxarg int64 // largest frame size for arguments to calls made by the function
cmd/compile: port liveness analysis to SSA Passes toolstash-check -all. Change-Id: I92c3c25d6c053f971f346f4fa3bbc76419b58183 Reviewed-on: https://go-review.googlesource.com/38087 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-09 18:32:17 -08:00
cmd/compile: introduce LivenessMap and LivenessIndex Currently liveness only produces a stack map index at each safe point, so the information is summarized in a map[*ssa.Value]int. We're about to have both a stack map index and a register map index, so replace the int with a LivenessIndex type we can extend, and replace the map with a LivenessMap that we can also change more easily in the future. This also gives us an easy hook for defining the value that means "not a safe point". Passes toolstash -cmp. For #24543. Change-Id: Ic4c069839635efed4fd0f603899b80f8be3b56ec Reviewed-on: https://go-review.googlesource.com/109347 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-22 12:04:51 -04:00
// Map from GC safe points to liveness index, generated by
cmd/compile: port liveness analysis to SSA Passes toolstash-check -all. Change-Id: I92c3c25d6c053f971f346f4fa3bbc76419b58183 Reviewed-on: https://go-review.googlesource.com/38087 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-09 18:32:17 -08:00
// liveness analysis.
cmd/compile: introduce LivenessMap and LivenessIndex Currently liveness only produces a stack map index at each safe point, so the information is summarized in a map[*ssa.Value]int. We're about to have both a stack map index and a register map index, so replace the int with a LivenessIndex type we can extend, and replace the map with a LivenessMap that we can also change more easily in the future. This also gives us an easy hook for defining the value that means "not a safe point". Passes toolstash -cmp. For #24543. Change-Id: Ic4c069839635efed4fd0f603899b80f8be3b56ec Reviewed-on: https://go-review.googlesource.com/109347 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-22 12:04:51 -04:00
livenessMap LivenessMap
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
// lineRunStart records the beginning of the current run of instructions
// within a single block sharing the same line number
// Used to move statement marks to the beginning of such runs.
lineRunStart *obj.Prog
cmd/compile: add wasm stack optimization Go's SSA instructions only operate on registers. For example, an add instruction would read two registers, do the addition and then write to a register. WebAssembly's instructions, on the other hand, operate on the stack. The add instruction first pops two values from the stack, does the addition, then pushes the result to the stack. To fulfill Go's semantics, one needs to map Go's single add instruction to 4 WebAssembly instructions: - Push the value of local variable A to the stack - Push the value of local variable B to the stack - Do addition - Write value from stack to local variable C Now consider that B was set to the constant 42 before the addition: - Push constant 42 to the stack - Write value from stack to local variable B This works, but is inefficient. Instead, the stack is used directly by inlining instructions if possible. With inlining it becomes: - Push the value of local variable A to the stack (add) - Push constant 42 to the stack (constant) - Do addition (add) - Write value from stack to local variable C (add) Note that the two SSA instructions can not be generated sequentially anymore, because their WebAssembly instructions are interleaved. Design doc: https://docs.google.com/document/d/131vjr4DH6JFnb-blm_uRdaC0_Nv3OUwjEY5qVCxCup4 Updates #18892 Change-Id: Ie35e1c0bebf4985fddda0d6330eb2066f9ad6dec Reviewed-on: https://go-review.googlesource.com/103535 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-03-09 00:14:58 +01:00
// wasm: The number of values on the WebAssembly stack. This is only used as a safeguard.
OnWasmStackSkipped int
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
}
cmd/compile: funnel SSA Prog creation through SSAGenState Step one in eliminating Prog-related globals. Passes toolstash-check -all. Updates #15756 Change-Id: I3b777fb5a7716f2d9da3067fbd94c28ca894a465 Reviewed-on: https://go-review.googlesource.com/38450 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-20 08:01:28 -07:00
// Prog appends a new Prog.
func (s *SSAGenState) Prog(as obj.As) *obj.Prog {
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
p := s.pp.Prog(as)
cmd/compile: refactor and cleanup of common code/workaround There's a glitch in how attributes from procs that do not generate code are combined, and the workaround for this glitch appeared in two places. "One big pile is better than two little ones." Updates #25426. Change-Id: I252f9adc5b77591720a61fa22e6f9dda33d95350 Reviewed-on: https://go-review.googlesource.com/113717 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-05-18 15:11:30 -04:00
if ssa.LosesStmtMark(as) {
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
return p
}
// Float a statement start to the beginning of any same-line run.
// lineRunStart is reset at block boundaries, which appears to work well.
if s.lineRunStart == nil || s.lineRunStart.Pos.Line() != p.Pos.Line() {
s.lineRunStart = p
} else if p.Pos.IsStmt() == src.PosIsStmt {
s.lineRunStart.Pos = s.lineRunStart.Pos.WithIsStmt()
p.Pos = p.Pos.WithNotStmt()
}
return p
cmd/compile: funnel SSA Prog creation through SSAGenState Step one in eliminating Prog-related globals. Passes toolstash-check -all. Updates #15756 Change-Id: I3b777fb5a7716f2d9da3067fbd94c28ca894a465 Reviewed-on: https://go-review.googlesource.com/38450 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-20 08:01:28 -07:00
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// Pc returns the current Prog.
func (s *SSAGenState) Pc() *obj.Prog {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
return s.pp.next
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
}
[dev.inline] cmd/compile: rename various fields from Lineno to Pos Various minor adjustments. Change-Id: Iedfb97989f7bedaa3e9e8993b167e05f162434a7 Reviewed-on: https://go-review.googlesource.com/34136 Reviewed-by: David Lazar <lazard@golang.org>
2016-12-07 17:40:46 -08:00
// SetPos sets the current source position.
[dev.inline] cmd/internal/src: introduce compact source position representation XPos is a compact (8 instead of 16 bytes on a 64bit machine) source position representation. There is a 1:1 correspondence between each XPos and each regular Pos, translated via a global table. In some sense this brings back the LineHist, though positions can track line and column information; there is a O(1) translation between the representations (no binary search), and the translation is factored out. The size increase with the prior change is brought down again and the compiler speed is in line with the master repo (measured on the same "quiet" machine as for prior change): name old time/op new time/op delta Template 256ms ± 1% 262ms ± 2% ~ (p=0.063 n=5+4) Unicode 132ms ± 1% 135ms ± 2% ~ (p=0.063 n=5+4) GoTypes 891ms ± 1% 871ms ± 1% -2.28% (p=0.016 n=5+4) Compiler 3.84s ± 2% 3.89s ± 2% ~ (p=0.413 n=5+4) MakeBash 47.1s ± 1% 46.2s ± 2% ~ (p=0.095 n=5+5) name old user-ns/op new user-ns/op delta Template 309M ± 1% 314M ± 2% ~ (p=0.111 n=5+4) Unicode 165M ± 1% 172M ± 9% ~ (p=0.151 n=5+5) GoTypes 1.14G ± 2% 1.12G ± 1% ~ (p=0.063 n=5+4) Compiler 5.00G ± 1% 4.96G ± 1% ~ (p=0.286 n=5+4) Change-Id: Icc570cc60ab014d8d9af6976f1f961ab8828cc47 Reviewed-on: https://go-review.googlesource.com/34506 Run-TryBot: Robert Griesemer <gri@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-12-15 17:17:01 -08:00
func (s *SSAGenState) SetPos(pos src.XPos) {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
s.pp.pos = pos
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
}
cmd/compile: use Block.Likely to put likely branch first When a neither of a conditional block's successors follows, the block must end with a conditional branch followed by a an unconditional branch. If the (conditional) branch is "unlikely", invert it and swap successors to make it likely instead. This doesn't matter to most benchmarks on amd64, but in one instance on amd64 it caused a 30% improvement, and it is otherwise harmless. The problematic loop is for i := 0; i < w; i++ { if pw[i] != 0 { return true } } compiled under GOEXPERIMENT=preemptibleloops This the very worst-case benchmark for that experiment. Also in this CL is a commoning up of heavily-repeated boilerplate, which made it much easier to see that the changes were applied correctly. In the future this should allow un-exporting of SSAGenState.Branches once the boilerplate-replacement is done everywhere. Change-Id: I0e5ded6eeb3ab1e3e0138e12d54c7e056bd99335 Reviewed-on: https://go-review.googlesource.com/104977 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-05 16:14:42 -04:00
// Br emits a single branch instruction and returns the instruction.
// Not all architectures need the returned instruction, but otherwise
// the boilerplate is common to all.
func (s *SSAGenState) Br(op obj.As, target *ssa.Block) *obj.Prog {
p := s.Prog(op)
p.To.Type = obj.TYPE_BRANCH
s.Branches = append(s.Branches, Branch{P: p, B: target})
return p
}
cmd/compile: fix doc typo in ssa.go Change-Id: Ie299a5eca6f6a7c5a37c00ff0de7ce322450375b Reviewed-on: https://go-review.googlesource.com/c/go/+/178123 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-05-21 21:18:23 +07:00
// DebugFriendlySetPosFrom adjusts Pos.IsStmt subject to heuristics
cmd/compile: reduce debugger-worsening line number churn Reuse block head or preceding instruction's line number for register allocator's spill, fill, copy, rematerialization instructionsl; and also for phi, and for no-src-pos instructions. Assembler creates same line number tables for copy-predecessor-line and for no-src-pos, but copy-predecessor produces better-looking assembly language output with -S and with GOSSAFUNC, and does not require changes to tests of existing assembly language. Split "copyInto" into two cases, one for register allocation, one for otherwise. This caused the test score line change count to increase by one, which may reflect legitimately useful information preserved. Without any special treatment for copyInto, the change count increases by 21 more, from 51 to 72 (i.e., quite a lot). There is a test; using two naive "scores" for line number churn, the old numbering is 2x or 4x worse. Fixes #18902. Change-Id: I0a0a69659d30ee4e5d10116a0dd2b8c5df8457b1 Reviewed-on: https://go-review.googlesource.com/36207 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 14:51:15 -05:00
// that reduce "jumpy" line number churn when debugging.
// Spill/fill/copy instructions from the register allocator,
// phi functions, and instructions with a no-pos position
// are examples of instructions that can cause churn.
func (s *SSAGenState) DebugFriendlySetPosFrom(v *ssa.Value) {
switch v.Op {
case ssa.OpPhi, ssa.OpCopy, ssa.OpLoadReg, ssa.OpStoreReg:
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
// These are not statements
s.SetPos(v.Pos.WithNotStmt())
cmd/compile: reduce debugger-worsening line number churn Reuse block head or preceding instruction's line number for register allocator's spill, fill, copy, rematerialization instructionsl; and also for phi, and for no-src-pos instructions. Assembler creates same line number tables for copy-predecessor-line and for no-src-pos, but copy-predecessor produces better-looking assembly language output with -S and with GOSSAFUNC, and does not require changes to tests of existing assembly language. Split "copyInto" into two cases, one for register allocation, one for otherwise. This caused the test score line change count to increase by one, which may reflect legitimately useful information preserved. Without any special treatment for copyInto, the change count increases by 21 more, from 51 to 72 (i.e., quite a lot). There is a test; using two naive "scores" for line number churn, the old numbering is 2x or 4x worse. Fixes #18902. Change-Id: I0a0a69659d30ee4e5d10116a0dd2b8c5df8457b1 Reviewed-on: https://go-review.googlesource.com/36207 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 14:51:15 -05:00
default:
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
p := v.Pos
if p != src.NoXPos {
// If the position is defined, update the position.
// Also convert default IsStmt to NotStmt; only
// explicit statement boundaries should appear
// in the generated code.
if p.IsStmt() != src.PosIsStmt {
p = p.WithNotStmt()
cmd/compile: remove statement marks from secondary calls Calls are code-generated in an alternate path that inherits its positions from values, not from *SSAGenState. The default position on *SSAGenState was marked as not-a-statement, but this was not applied to the value itself, leading to spurious "is statement" marks in the output (convention: after code generation in the compiler, everything is either definitely a statement or definitely not a statement, nothing is in the undetermined state). This CL causes a 35 statement regression in ssa/stmtlines_test. This is down from the earlier 150 because of all the other CLs preceding this one that deal with the root causes of the missing lines (repeated lines on nested calls hid missing lines). This also removes some line repeats from ssa/debug_test. Change-Id: Ie9a507bd5447e906b35bbd098e3295211df2ae01 Reviewed-on: https://go-review.googlesource.com/c/go/+/188018 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Jeremy Faller <jeremy@golang.org>
2019-07-29 16:23:31 -04:00
// Calls use the pos attached to v, but copy the statement mark from SSAGenState
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
}
s.SetPos(p)
cmd/compile: remove statement marks from secondary calls Calls are code-generated in an alternate path that inherits its positions from values, not from *SSAGenState. The default position on *SSAGenState was marked as not-a-statement, but this was not applied to the value itself, leading to spurious "is statement" marks in the output (convention: after code generation in the compiler, everything is either definitely a statement or definitely not a statement, nothing is in the undetermined state). This CL causes a 35 statement regression in ssa/stmtlines_test. This is down from the earlier 150 because of all the other CLs preceding this one that deal with the root causes of the missing lines (repeated lines on nested calls hid missing lines). This also removes some line repeats from ssa/debug_test. Change-Id: Ie9a507bd5447e906b35bbd098e3295211df2ae01 Reviewed-on: https://go-review.googlesource.com/c/go/+/188018 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Jeremy Faller <jeremy@golang.org>
2019-07-29 16:23:31 -04:00
} else {
s.SetPos(s.pp.pos.WithNotStmt())
cmd/compile: reduce debugger-worsening line number churn Reuse block head or preceding instruction's line number for register allocator's spill, fill, copy, rematerialization instructionsl; and also for phi, and for no-src-pos instructions. Assembler creates same line number tables for copy-predecessor-line and for no-src-pos, but copy-predecessor produces better-looking assembly language output with -S and with GOSSAFUNC, and does not require changes to tests of existing assembly language. Split "copyInto" into two cases, one for register allocation, one for otherwise. This caused the test score line change count to increase by one, which may reflect legitimately useful information preserved. Without any special treatment for copyInto, the change count increases by 21 more, from 51 to 72 (i.e., quite a lot). There is a test; using two naive "scores" for line number churn, the old numbering is 2x or 4x worse. Fixes #18902. Change-Id: I0a0a69659d30ee4e5d10116a0dd2b8c5df8457b1 Reviewed-on: https://go-review.googlesource.com/36207 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 14:51:15 -05:00
}
}
}
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
// byXoffset implements sort.Interface for []*Node using Xoffset as the ordering.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
type byXoffset []ir.Node
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
func (s byXoffset) Len() int { return len(s) }
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
func (s byXoffset) Less(i, j int) bool { return s[i].Offset() < s[j].Offset() }
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
func (s byXoffset) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func emitStackObjects(e *ssafn, pp *Progs) {
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
var vars []ir.Node
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, n := range e.curfn.Func().Dcl {
if livenessShouldTrack(n) && n.Name().Addrtaken() {
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
vars = append(vars, n)
}
}
if len(vars) == 0 {
return
}
// Sort variables from lowest to highest address.
sort.Sort(byXoffset(vars))
// Populate the stack object data.
// Format must match runtime/stack.go:stackObjectRecord.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
x := e.curfn.Func().LSym.Func().StackObjects
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
off := 0
off = duintptr(x, off, uint64(len(vars)))
for _, v := range vars {
// Note: arguments and return values have non-negative Xoffset,
// in which case the offset is relative to argp.
// Locals have a negative Xoffset, in which case the offset is relative to varp.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = duintptr(x, off, uint64(v.Offset()))
if !typesym(v.Type()).Siggen() {
e.Fatalf(v.Pos(), "stack object's type symbol not generated for type %s", v.Type())
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
off = dsymptr(x, off, dtypesym(v.Type()), 0)
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
}
// Emit a funcdata pointing at the stack object data.
p := pp.Prog(obj.AFUNCDATA)
Addrconst(&p.From, objabi.FUNCDATA_StackObjects)
p.To.Type = obj.TYPE_MEM
p.To.Name = obj.NAME_EXTERN
p.To.Sym = x
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Flag.Live != 0 {
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
for _, v := range vars {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
base.WarnfAt(v.Pos(), "stack object %v %s", v, v.Type().String())
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
}
}
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
}
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
// genssa appends entries to pp for each instruction in f.
func genssa(f *ssa.Func, pp *Progs) {
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
var s SSAGenState
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
e := f.Frontend().(*ssafn)
[dev.ssa] cmd/compile: add GOSSAFUNC and GOSSAPKG These temporary environment variables make it possible to enable using SSA-generated code for a particular function or package without having to rebuild the compiler. This makes it possible to start bulk testing SSA generated code. First, bump up the default stack size (_StackMin in runtime/stack2.go) to something large like 32768, because without stackmaps we can't grow stacks. Then run something like: for pkg in `go list std` do GOGC=off GOSSAPKG=`basename $pkg` go test -a $pkg done When a test fails, you can re-run those tests, selectively enabling one function after another, until you find the one that is causing trouble. Doing this right now yields some interesting results: * There are several packages for which we generate some code and whose tests pass. Yay! * We can generate code for encoding/base64, but tests there fail, so there's a bug to fix. * Attempting to build the runtime yields a panic during codegen: panic: interface conversion: ssa.Location is nil, not *ssa.LocalSlot * The top unimplemented codegen items are (simplified): 59 genValue not implemented: REPMOVSB 18 genValue not implemented: REPSTOSQ 14 genValue not implemented: SUBQ 9 branch not implemented: If v -> b b. Control: XORQconst <bool> [1] 8 genValue not implemented: MOVQstoreidx8 4 branch not implemented: If v -> b b. Control: SETG <bool> 3 branch not implemented: If v -> b b. Control: SETLE <bool> 2 load flags not implemented: LoadReg8 <flags> 2 genValue not implemented: InvertFlags <flags> 1 store flags not implemented: StoreReg8 <flags> 1 branch not implemented: If v -> b b. Control: SETGE <bool> Change-Id: Ib64809ac0c917e25bcae27829ae634c70d290c7f Reviewed-on: https://go-review.googlesource.com/12547 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-22 13:13:53 -07:00
cmd/compile: avoid duplicate GC bitmap symbols Currently, liveness produces a distinct obj.LSym for each GC bitmap for each function. These are then named by content hash and only ultimately deduplicated by WriteObjFile. For various reasons (see next commit), we want to remove this deduplication behavior from WriteObjFile. Furthermore, it's inefficient to produce these duplicate symbols in the first place. GC bitmaps are the only source of duplicate symbols in the compiler. This commit eliminates these duplicate symbols by declaring them in the Ctxt symbol hash just like every other obj.LSym. As a result, all GC bitmaps with the same content now refer to the same obj.LSym. The next commit will remove deduplication from WriteObjFile. For #27539. Change-Id: I4f15e3d99530122cdf473b7a838c69ef5f79db59 Reviewed-on: https://go-review.googlesource.com/c/146557 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-10-29 18:21:00 -04:00
s.livenessMap = liveness(e, f, pp)
cmd/compile,runtime: implement stack objects Rework how the compiler+runtime handles stack-allocated variables whose address is taken. Direct references to such variables work as before. References through pointers, however, use a new mechanism. The new mechanism is more precise than the old "ambiguously live" mechanism. It computes liveness at runtime based on the actual references among objects on the stack. Each function records all of its address-taken objects in a FUNCDATA. These are called "stack objects". The runtime then uses that information while scanning a stack to find all of the stack objects on a stack. It then does a mark phase on the stack objects, using all the pointers found on the stack (and ancillary structures, like defer records) as the root set. Only stack objects which are found to be live during this mark phase will be scanned and thus retain any heap objects they point to. A subsequent CL will remove all the "ambiguously live" logic from the compiler, so that the stack object tracing will be required. For this CL, the stack tracing is all redundant with the current ambiguously live logic. Update #22350 Change-Id: Ide19f1f71a5b6ec8c4d54f8f66f0e9a98344772f Reviewed-on: https://go-review.googlesource.com/c/134155 Reviewed-by: Austin Clements <austin@google.com>
2018-09-01 20:16:39 -07:00
emitStackObjects(e, pp)
cmd/compile: port liveness analysis to SSA Passes toolstash-check -all. Change-Id: I92c3c25d6c053f971f346f4fa3bbc76419b58183 Reviewed-on: https://go-review.googlesource.com/38087 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-09 18:32:17 -08:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
openDeferInfo := e.curfn.Func().LSym.Func().OpenCodedDeferInfo
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if openDeferInfo != nil {
// This function uses open-coded defers -- write out the funcdata
// info that we computed at the end of genssa.
p := pp.Prog(obj.AFUNCDATA)
Addrconst(&p.From, objabi.FUNCDATA_OpenCodedDeferInfo)
p.To.Type = obj.TYPE_MEM
p.To.Name = obj.NAME_EXTERN
p.To.Sym = openDeferInfo
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
// Remember where each block starts.
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
s.bstart = make([]*obj.Prog, f.NumBlocks())
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
s.pp = pp
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
var progToValue map[*obj.Prog]*ssa.Value
var progToBlock map[*obj.Prog]*ssa.Block
cmd/compile: adjust locationlist lifetimes A statement like foo = bar + qux might compile to AX := AX + BX resulting in a regkill for AX before this instruction. The buggy behavior is to kill AX "at" this instruction, before it has executed. (Code generation of no-instruction values like RegKills applies their effects at the next actual instruction emitted). However, bar is still associated with AX until after the instruction executes, so the effect of the regkill must occur at the boundary between this instruction and the next. Similarly, the new value bound to AX is not visible until this instruction executes (and in the case of values that require multiple instructions in code generation, until all of them have executed). The ranges are adjusted so that a value's start occurs at the next following instruction after its evaluation, and the end occurs after (execution of) the first instruction following the end of the lifetime as a value. (Notice the asymmetry; the entire value must be finished before it is visible, but execution of a single instruction invalidates. However, the value *is* visible before that next instruction executes). The test was adjusted to make it insensitive to the result numbering for variables printed by gdb, since that is not relevant to the test and makes the differences introduced by small changes larger than necessary/useful. The test was also improved to present variable probes more intuitively, and also to allow explicit indication of "this variable was optimized out" Change-Id: I39453eead8399e6bb05ebd957289b112d1100c0e Reviewed-on: https://go-review.googlesource.com/74090 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-27 17:02:11 -04:00
var valueToProgAfter []*obj.Prog // The first Prog following computation of a value v; v is visible at this point.
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
if f.PrintOrHtmlSSA {
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
progToValue = make(map[*obj.Prog]*ssa.Value, f.NumValues())
progToBlock = make(map[*obj.Prog]*ssa.Block, f.NumBlocks())
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
f.Logf("genssa %s\n", f.Name)
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
progToBlock[s.pp.next] = f.Blocks[0]
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
cmd/compile: remove scratchFpMem global Instead, add a scratchFpMem field to ssafn, so that it may be passed on to genssa. Updates #15756 Change-Id: Icdeae290d3098d14d31659fa07a9863964bb76ed Reviewed-on: https://go-review.googlesource.com/38728 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-03-30 14:34:16 -07:00
s.ScratchFpMem = e.scratchFpMem
[dev.ssa] cmd/compile: implement GO386=387 Last part of the 386 SSA port. Modify the x86 backend to simulate SSE registers and instructions with 387 registers and instructions. The simulation isn't terribly performant, but it works, and the old implementation wasn't very performant either. Leaving to people who care about 387 to optimize if they want. Turn on SSA backend for 386 by default. Fixes #16358 Change-Id: I678fb59132620b2c47e993c1c10c4c21135f70c0 Reviewed-on: https://go-review.googlesource.com/25271 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-07-26 11:51:33 -07:00
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Ctxt.Flag_locationlists {
cmd/compile/internal: reuse memory for valueToProgAfter Not a big improvement, but does help edge cases like the SSA package. Change-Id: I40e531110b97efd5f45955be477fd0f4faa8d545 Reviewed-on: https://go-review.googlesource.com/92396 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-01-29 17:01:41 -05:00
if cap(f.Cache.ValueToProgAfter) < f.NumValues() {
f.Cache.ValueToProgAfter = make([]*obj.Prog, f.NumValues())
}
valueToProgAfter = f.Cache.ValueToProgAfter[:f.NumValues()]
for i := range valueToProgAfter {
valueToProgAfter[i] = nil
}
[dev.debug] cmd/compile: better DWARF with optimizations on Debuggers use DWARF information to find local variables on the stack and in registers. Prior to this CL, the DWARF information for functions claimed that all variables were on the stack at all times. That's incorrect when optimizations are enabled, and results in debuggers showing data that is out of date or complete gibberish. After this CL, the compiler is capable of representing variable locations more accurately, and attempts to do so. Due to limitations of the SSA backend, it's not possible to be completely correct. There are a number of problems in the current design. One of the easier to understand is that variable names currently must be attached to an SSA value, but not all assignments in the source code actually result in machine code. For example: type myint int var a int b := myint(int) and b := (*uint64)(unsafe.Pointer(a)) don't generate machine code because the underlying representation is the same, so the correct value of b will not be set when the user would expect. Generating the more precise debug information is behind a flag, dwarflocationlists. Because of the issues described above, setting the flag may not make the debugging experience much better, and may actually make it worse in cases where the variable actually is on the stack and the more complicated analysis doesn't realize it. A number of changes are included: - Add a new pseudo-instruction, RegKill, which indicates that the value in the register has been clobbered. - Adjust regalloc to emit RegKills in the right places. Significantly, this means that phis are mixed with StoreReg and RegKills after regalloc. - Track variable decomposition in ssa.LocalSlots. - After the SSA backend is done, analyze the result and build location lists for each LocalSlot. - After assembly is done, update the location lists with the assembled PC offsets, recompose variables, and build DWARF location lists. Emit the list as a new linker symbol, one per function. - In the linker, aggregate the location lists into a .debug_loc section. TODO: - currently disabled for non-X86/AMD64 because there are no data tables. go build -toolexec 'toolstash -cmp' -a std succeeds. With -dwarflocationlists false: before: f02812195637909ff675782c0b46836a8ff01976 after: 06f61e8112a42ac34fb80e0c818b3cdb84a5e7ec benchstat -geomean /tmp/220352263 /tmp/621364410 completed 15 of 15, estimated time remaining 0s (eta 3:52PM) name old time/op new time/op delta Template 199ms ± 3% 198ms ± 2% ~ (p=0.400 n=15+14) Unicode 96.6ms ± 5% 96.4ms ± 5% ~ (p=0.838 n=15+15) GoTypes 653ms ± 2% 647ms ± 2% ~ (p=0.102 n=15+14) Flate 133ms ± 6% 129ms ± 3% -2.62% (p=0.041 n=15+15) GoParser 164ms ± 5% 159ms ± 3% -3.05% (p=0.000 n=15+15) Reflect 428ms ± 4% 422ms ± 3% ~ (p=0.156 n=15+13) Tar 123ms ±10% 124ms ± 8% ~ (p=0.461 n=15+15) XML 228ms ± 3% 224ms ± 3% -1.57% (p=0.045 n=15+15) [Geo mean] 206ms 377ms +82.86% name old user-time/op new user-time/op delta Template 292ms ±10% 301ms ±12% ~ (p=0.189 n=15+15) Unicode 166ms ±37% 158ms ±14% ~ (p=0.418 n=15+14) GoTypes 962ms ± 6% 963ms ± 7% ~ (p=0.976 n=15+15) Flate 207ms ±19% 200ms ±14% ~ (p=0.345 n=14+15) GoParser 246ms ±22% 240ms ±15% ~ (p=0.587 n=15+15) Reflect 611ms ±13% 587ms ±14% ~ (p=0.085 n=15+13) Tar 211ms ±12% 217ms ±14% ~ (p=0.355 n=14+15) XML 335ms ±15% 320ms ±18% ~ (p=0.169 n=15+15) [Geo mean] 317ms 583ms +83.72% name old alloc/op new alloc/op delta Template 40.2MB ± 0% 40.2MB ± 0% -0.15% (p=0.000 n=14+15) Unicode 29.2MB ± 0% 29.3MB ± 0% ~ (p=0.624 n=15+15) GoTypes 114MB ± 0% 114MB ± 0% -0.15% (p=0.000 n=15+14) Flate 25.7MB ± 0% 25.6MB ± 0% -0.18% (p=0.000 n=13+15) GoParser 32.2MB ± 0% 32.2MB ± 0% -0.14% (p=0.003 n=15+15) Reflect 77.8MB ± 0% 77.9MB ± 0% ~ (p=0.061 n=15+15) Tar 27.1MB ± 0% 27.0MB ± 0% -0.11% (p=0.029 n=15+15) XML 42.7MB ± 0% 42.5MB ± 0% -0.29% (p=0.000 n=15+15) [Geo mean] 42.1MB 75.0MB +78.05% name old allocs/op new allocs/op delta Template 402k ± 1% 398k ± 0% -0.91% (p=0.000 n=15+15) Unicode 344k ± 1% 344k ± 0% ~ (p=0.715 n=15+14) GoTypes 1.18M ± 0% 1.17M ± 0% -0.91% (p=0.000 n=15+14) Flate 243k ± 0% 240k ± 1% -1.05% (p=0.000 n=13+15) GoParser 327k ± 1% 324k ± 1% -0.96% (p=0.000 n=15+15) Reflect 984k ± 1% 982k ± 0% ~ (p=0.050 n=15+15) Tar 261k ± 1% 259k ± 1% -0.77% (p=0.000 n=15+15) XML 411k ± 0% 404k ± 1% -1.55% (p=0.000 n=15+15) [Geo mean] 439k 755k +72.01% name old text-bytes new text-bytes delta HelloSize 694kB ± 0% 694kB ± 0% -0.00% (p=0.000 n=15+15) name old data-bytes new data-bytes delta HelloSize 5.55kB ± 0% 5.55kB ± 0% ~ (all equal) name old bss-bytes new bss-bytes delta HelloSize 133kB ± 0% 133kB ± 0% ~ (all equal) name old exe-bytes new exe-bytes delta HelloSize 1.04MB ± 0% 1.04MB ± 0% ~ (all equal) Change-Id: I991fc553ef175db46bb23b2128317bbd48de70d8 Reviewed-on: https://go-review.googlesource.com/41770 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:30:19 -04:00
}
cmd/compile: adjust locationlist lifetimes A statement like foo = bar + qux might compile to AX := AX + BX resulting in a regkill for AX before this instruction. The buggy behavior is to kill AX "at" this instruction, before it has executed. (Code generation of no-instruction values like RegKills applies their effects at the next actual instruction emitted). However, bar is still associated with AX until after the instruction executes, so the effect of the regkill must occur at the boundary between this instruction and the next. Similarly, the new value bound to AX is not visible until this instruction executes (and in the case of values that require multiple instructions in code generation, until all of them have executed). The ranges are adjusted so that a value's start occurs at the next following instruction after its evaluation, and the end occurs after (execution of) the first instruction following the end of the lifetime as a value. (Notice the asymmetry; the entire value must be finished before it is visible, but execution of a single instruction invalidates. However, the value *is* visible before that next instruction executes). The test was adjusted to make it insensitive to the result numbering for variables printed by gdb, since that is not relevant to the test and makes the differences introduced by small changes larger than necessary/useful. The test was also improved to present variable probes more intuitively, and also to allow explicit indication of "this variable was optimized out" Change-Id: I39453eead8399e6bb05ebd957289b112d1100c0e Reviewed-on: https://go-review.googlesource.com/74090 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-27 17:02:11 -04:00
cmd/compile: ensure first instruction of function is stmt In gdb, "b f" gets confused if the first instruction of "f" is not marked as a statement in the DWARF line table. To ensure gdb is not confused, move the first statement marker in "f" to its first instruction. The screwy-looking conditional for "what's the first instruction with a statement marker" will become simpler in the future. Fixes #24695. Change-Id: I2eef81676b64d1bd9bff5da03b89b9dc0c18f44f Reviewed-on: https://go-review.googlesource.com/104955 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-05 11:11:39 -04:00
// If the very first instruction is not tagged as a statement,
// debuggers may attribute it to previous function in program.
firstPos := src.NoXPos
for _, v := range f.Entry.Values {
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
if v.Pos.IsStmt() == src.PosIsStmt {
firstPos = v.Pos
v.Pos = firstPos.WithDefaultStmt()
cmd/compile: ensure first instruction of function is stmt In gdb, "b f" gets confused if the first instruction of "f" is not marked as a statement in the DWARF line table. To ensure gdb is not confused, move the first statement marker in "f" to its first instruction. The screwy-looking conditional for "what's the first instruction with a statement marker" will become simpler in the future. Fixes #24695. Change-Id: I2eef81676b64d1bd9bff5da03b89b9dc0c18f44f Reviewed-on: https://go-review.googlesource.com/104955 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-05 11:11:39 -04:00
break
}
}
cmd/compile: use existing instructions instead of nops for inline marks Instead of always inserting a nop to use as the target of an inline mark, see if we can instead find an instruction we're issuing anyway with the correct line number, and use that instruction. That way, we don't need to issue a nop. Makes cmd/go 0.3% smaller. Update #29571 Change-Id: If6cfc93ab3352ec2c6e0878f8074a3bf0786b2f8 Reviewed-on: https://go-review.googlesource.com/c/go/+/158021 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-15 14:50:09 -08:00
// inlMarks has an entry for each Prog that implements an inline mark.
// It maps from that Prog to the global inlining id of the inlined body
// which should unwind to this Prog's location.
var inlMarks map[*obj.Prog]int32
var inlMarkList []*obj.Prog
// inlMarksByPos maps from a (column 1) source position to the set of
// Progs that are in the set above and have that source position.
var inlMarksByPos map[src.XPos][]*obj.Prog
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
// Emit basic blocks
for i, b := range f.Blocks {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
s.bstart[b.ID] = s.pp.next
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
s.lineRunStart = nil
cmd/compile: output stack map index everywhere it changes Currently, the code generator only considers outputting stack map indexes at CALL instructions. Raise this into the code generator loop itself so that changes in the stack map index at any instruction emit a PCDATA Prog before the actual instruction. We'll optimize this in later CLs: name old time/op new time/op delta Template 190ms ± 2% 191ms ± 2% ~ (p=0.529 n=10+10) Unicode 96.4ms ± 1% 98.5ms ± 3% +2.18% (p=0.001 n=9+10) GoTypes 669ms ± 1% 673ms ± 1% +0.62% (p=0.004 n=9+9) Compiler 3.18s ± 1% 3.22s ± 1% +1.06% (p=0.000 n=10+9) SSA 7.59s ± 1% 7.64s ± 1% +0.66% (p=0.023 n=10+10) Flate 128ms ± 1% 130ms ± 2% +1.07% (p=0.043 n=10+10) GoParser 157ms ± 2% 158ms ± 3% ~ (p=0.123 n=10+10) Reflect 442ms ± 1% 445ms ± 1% +0.73% (p=0.017 n=10+9) Tar 179ms ± 1% 180ms ± 1% +0.58% (p=0.019 n=9+9) XML 229ms ± 1% 232ms ± 2% +1.27% (p=0.009 n=10+10) [Geo mean] 401ms 405ms +0.94% name old exe-bytes new exe-bytes delta HelloSize 1.46M ± 0% 1.47M ± 0% +0.84% (p=0.000 n=10+10) [Geo mean] 1.46M 1.47M +0.84% For #24543. Change-Id: I4bfe45b767c9d9db47308a27763b303fa75bfa54 Reviewed-on: https://go-review.googlesource.com/109350 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-27 16:11:10 -04:00
cmd/compile: mark empty block preemptible Currently, a block's control instruction gets the liveness info of the last Value in the block. However, for an empty block, the control instruction gets the invalid liveness info and therefore not preemptible. One example is empty infinite loop, which has only a control instruction. The control instruction being non- preemptible makes the whole loop non-preemptible. Fix this by using a different, preemptible liveness info for empty block's control. We can choose an arbitrary preemptible liveness info, as at run time we don't really use the liveness map at that instruction. As before, if the last Value in the block is non-preemptible, so is the block control. For example, the conditional branch in the write barrier test block is still non-preemptible. Also, only update liveness info if we are actually emitting instructions. So zero-width Values' liveness info (which are always invalid) won't affect the block control's liveness info. For example, if the last Values in a block is a tuple-generating operation and a Select, the block control instruction is still preemptible. Fixes #35923. Change-Id: Ic5225f3254b07e4955f7905329b544515907642b Reviewed-on: https://go-review.googlesource.com/c/go/+/209659 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-12-02 22:56:40 -05:00
// Attach a "default" liveness info. Normally this will be
// overwritten in the Values loop below for each Value. But
// for an empty block this will be used for its control
// instruction. We won't use the actual liveness map on a
// control instruction. Just mark it something that is
cmd/compile: mark block control instruction unsafe in "all unsafe" functions Currently, for runtime functions and nosplit functions, it is considered "all unsafe", meaning that the entire function body is unsafe points. In the past, we didn't mark CALLs in such functions unsafe, which is fixed in CL 230541. We also didn't mark block control instructions (for mostly-empty blocks) unsafe. This CL fixes it. May fix #36110. Change-Id: I3be8fdcef2b294e5367b31eb1c1b5e79966565fa Reviewed-on: https://go-review.googlesource.com/c/go/+/236597 Reviewed-by: Austin Clements <austin@google.com> Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-06-04 15:41:45 -04:00
// preemptible, unless this function is "all unsafe".
cmd/compile: delete register maps, completely Remove go115ReduceLiveness feature gating flag, along with code that only needed when go115ReduceLiveness is false. Change-Id: I7571913cc74cbd17b330a0ee0160fefc9eeee66e Reviewed-on: https://go-review.googlesource.com/c/go/+/264338 Trust: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: Austin Clements <austin@google.com>
2020-10-21 20:15:48 -04:00
s.pp.nextLive = LivenessIndex{-1, allUnsafe(f)}
cmd/compile: mark empty block preemptible Currently, a block's control instruction gets the liveness info of the last Value in the block. However, for an empty block, the control instruction gets the invalid liveness info and therefore not preemptible. One example is empty infinite loop, which has only a control instruction. The control instruction being non- preemptible makes the whole loop non-preemptible. Fix this by using a different, preemptible liveness info for empty block's control. We can choose an arbitrary preemptible liveness info, as at run time we don't really use the liveness map at that instruction. As before, if the last Value in the block is non-preemptible, so is the block control. For example, the conditional branch in the write barrier test block is still non-preemptible. Also, only update liveness info if we are actually emitting instructions. So zero-width Values' liveness info (which are always invalid) won't affect the block control's liveness info. For example, if the last Values in a block is a tuple-generating operation and a Select, the block control instruction is still preemptible. Fixes #35923. Change-Id: Ic5225f3254b07e4955f7905329b544515907642b Reviewed-on: https://go-review.googlesource.com/c/go/+/209659 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-12-02 22:56:40 -05:00
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
// Emit values in block
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
thearch.SSAMarkMoves(&s, b)
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
for _, v := range b.Values {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
x := s.pp.next
cmd/compile: reduce debugger-worsening line number churn Reuse block head or preceding instruction's line number for register allocator's spill, fill, copy, rematerialization instructionsl; and also for phi, and for no-src-pos instructions. Assembler creates same line number tables for copy-predecessor-line and for no-src-pos, but copy-predecessor produces better-looking assembly language output with -S and with GOSSAFUNC, and does not require changes to tests of existing assembly language. Split "copyInto" into two cases, one for register allocation, one for otherwise. This caused the test score line change count to increase by one, which may reflect legitimately useful information preserved. Without any special treatment for copyInto, the change count increases by 21 more, from 51 to 72 (i.e., quite a lot). There is a test; using two naive "scores" for line number churn, the old numbering is 2x or 4x worse. Fixes #18902. Change-Id: I0a0a69659d30ee4e5d10116a0dd2b8c5df8457b1 Reviewed-on: https://go-review.googlesource.com/36207 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-02 14:51:15 -05:00
s.DebugFriendlySetPosFrom(v)
cmd/compile: mark empty block preemptible Currently, a block's control instruction gets the liveness info of the last Value in the block. However, for an empty block, the control instruction gets the invalid liveness info and therefore not preemptible. One example is empty infinite loop, which has only a control instruction. The control instruction being non- preemptible makes the whole loop non-preemptible. Fix this by using a different, preemptible liveness info for empty block's control. We can choose an arbitrary preemptible liveness info, as at run time we don't really use the liveness map at that instruction. As before, if the last Value in the block is non-preemptible, so is the block control. For example, the conditional branch in the write barrier test block is still non-preemptible. Also, only update liveness info if we are actually emitting instructions. So zero-width Values' liveness info (which are always invalid) won't affect the block control's liveness info. For example, if the last Values in a block is a tuple-generating operation and a Select, the block control instruction is still preemptible. Fixes #35923. Change-Id: Ic5225f3254b07e4955f7905329b544515907642b Reviewed-on: https://go-review.googlesource.com/c/go/+/209659 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-12-02 22:56:40 -05:00
cmd/compile: refactor portable SSA Op handling Several SSA ops will always behave identically regardless of target architecture, so handle those within gc/ssa.go instead. Passes toolstash-check -all. Change-Id: I54d514e80ab86723e44332a5a38e3054cbca8c5d Reviewed-on: https://go-review.googlesource.com/37931 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-07 12:31:59 -08:00
switch v.Op {
case ssa.OpInitMem:
// memory arg needs no code
case ssa.OpArg:
// input args need no code
case ssa.OpSP, ssa.OpSB:
// nothing to do
case ssa.OpSelect0, ssa.OpSelect1:
// nothing to do
case ssa.OpGetG:
// nothing to do when there's a g register,
// and checkLower complains if there's not
cmd/compile,runtime: remove ambiguously live logic The previous CL introduced stack objects. This CL removes the old ambiguously live liveness analysis. After this CL we're relying on stack objects exclusively. Update a bunch of liveness tests to reflect the new world. Fixes #22350 Change-Id: I739b26e015882231011ce6bc1a7f426049e59f31 Reviewed-on: https://go-review.googlesource.com/c/134156 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-09-07 14:55:09 -07:00
case ssa.OpVarDef, ssa.OpVarLive, ssa.OpKeepAlive, ssa.OpVarKill:
cmd/compile: port liveness analysis to SSA Passes toolstash-check -all. Change-Id: I92c3c25d6c053f971f346f4fa3bbc76419b58183 Reviewed-on: https://go-review.googlesource.com/38087 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-09 18:32:17 -08:00
// nothing to do; already used by liveness
cmd/compile: refactor portable SSA Op handling Several SSA ops will always behave identically regardless of target architecture, so handle those within gc/ssa.go instead. Passes toolstash-check -all. Change-Id: I54d514e80ab86723e44332a5a38e3054cbca8c5d Reviewed-on: https://go-review.googlesource.com/37931 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-07 12:31:59 -08:00
case ssa.OpPhi:
CheckLoweredPhi(v)
cmd/compile: don't lower OpConvert Currently, each architecture lowers OpConvert to an arch-specific OpXXXconvert. This is silly because OpConvert means the same thing on all architectures and is logically a no-op that exists only to keep track of conversions to and from unsafe.Pointer. Furthermore, lowering it makes it harder to recognize in other analyses, particularly liveness analysis. This CL eliminates the lowering of OpConvert, leaving it as the generic op until code generation time. The main complexity here is that we still need to register-allocate OpConvert operations. Currently, each arch's lowered OpConvert specifies all GP registers in its register mask. Ideally, OpConvert wouldn't affect value homing at all, and we could just copy the home of OpConvert's source, but this can potentially home an OpConvert in a LocalSlot, which neither regalloc nor stackalloc expect. Rather than try to disentangle this assumption from regalloc and stackalloc, we continue to register-allocate OpConvert, but teach regalloc that OpConvert can be allocated to any allocatable GP register. For #24543. Change-Id: I795a6aee5fd94d4444a7bafac3838a400c9f7bb6 Reviewed-on: https://go-review.googlesource.com/108496 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-04-02 16:08:09 -04:00
case ssa.OpConvert:
// nothing to do; no-op conversion for liveness
if v.Args[0].Reg() != v.Reg() {
v.Fatalf("OpConvert should be a no-op: %s; %s", v.Args[0].LongString(), v.LongString())
}
cmd/compile,runtime: redo mid-stack inlining tracebacks Work involved in getting a stack trace is divided between runtime.Callers and runtime.CallersFrames. Before this CL, runtime.Callers returns a pc per runtime frame. runtime.CallersFrames is responsible for expanding a runtime frame into potentially multiple user frames. After this CL, runtime.Callers returns a pc per user frame. runtime.CallersFrames just maps those to user frame info. Entries in the result of runtime.Callers are now pcs of the calls (or of the inline marks), not of the instruction just after the call. Fixes #29007 Fixes #28640 Update #26320 Change-Id: I1c9567596ff73dc73271311005097a9188c3406f Reviewed-on: https://go-review.googlesource.com/c/152537 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-12-04 07:58:18 -08:00
case ssa.OpInlMark:
p := thearch.Ginsnop(s.pp)
cmd/compile: use existing instructions instead of nops for inline marks Instead of always inserting a nop to use as the target of an inline mark, see if we can instead find an instruction we're issuing anyway with the correct line number, and use that instruction. That way, we don't need to issue a nop. Makes cmd/go 0.3% smaller. Update #29571 Change-Id: If6cfc93ab3352ec2c6e0878f8074a3bf0786b2f8 Reviewed-on: https://go-review.googlesource.com/c/go/+/158021 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-15 14:50:09 -08:00
if inlMarks == nil {
inlMarks = map[*obj.Prog]int32{}
inlMarksByPos = map[src.XPos][]*obj.Prog{}
}
inlMarks[p] = v.AuxInt32()
inlMarkList = append(inlMarkList, p)
pos := v.Pos.AtColumn1()
inlMarksByPos[pos] = append(inlMarksByPos[pos], p)
cmd/compile,runtime: redo mid-stack inlining tracebacks Work involved in getting a stack trace is divided between runtime.Callers and runtime.CallersFrames. Before this CL, runtime.Callers returns a pc per runtime frame. runtime.CallersFrames is responsible for expanding a runtime frame into potentially multiple user frames. After this CL, runtime.Callers returns a pc per user frame. runtime.CallersFrames just maps those to user frame info. Entries in the result of runtime.Callers are now pcs of the calls (or of the inline marks), not of the instruction just after the call. Fixes #29007 Fixes #28640 Update #26320 Change-Id: I1c9567596ff73dc73271311005097a9188c3406f Reviewed-on: https://go-review.googlesource.com/c/152537 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-12-04 07:58:18 -08:00
cmd/compile: refactor portable SSA Op handling Several SSA ops will always behave identically regardless of target architecture, so handle those within gc/ssa.go instead. Passes toolstash-check -all. Change-Id: I54d514e80ab86723e44332a5a38e3054cbca8c5d Reviewed-on: https://go-review.googlesource.com/37931 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-07 12:31:59 -08:00
default:
cmd/compile: mark empty block preemptible Currently, a block's control instruction gets the liveness info of the last Value in the block. However, for an empty block, the control instruction gets the invalid liveness info and therefore not preemptible. One example is empty infinite loop, which has only a control instruction. The control instruction being non- preemptible makes the whole loop non-preemptible. Fix this by using a different, preemptible liveness info for empty block's control. We can choose an arbitrary preemptible liveness info, as at run time we don't really use the liveness map at that instruction. As before, if the last Value in the block is non-preemptible, so is the block control. For example, the conditional branch in the write barrier test block is still non-preemptible. Also, only update liveness info if we are actually emitting instructions. So zero-width Values' liveness info (which are always invalid) won't affect the block control's liveness info. For example, if the last Values in a block is a tuple-generating operation and a Select, the block control instruction is still preemptible. Fixes #35923. Change-Id: Ic5225f3254b07e4955f7905329b544515907642b Reviewed-on: https://go-review.googlesource.com/c/go/+/209659 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-12-02 22:56:40 -05:00
// Attach this safe point to the next
// instruction.
s.pp.nextLive = s.livenessMap.Get(v)
cmd/compile: ensure first instruction of function is stmt In gdb, "b f" gets confused if the first instruction of "f" is not marked as a statement in the DWARF line table. To ensure gdb is not confused, move the first statement marker in "f" to its first instruction. The screwy-looking conditional for "what's the first instruction with a statement marker" will become simpler in the future. Fixes #24695. Change-Id: I2eef81676b64d1bd9bff5da03b89b9dc0c18f44f Reviewed-on: https://go-review.googlesource.com/104955 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2018-04-05 11:11:39 -04:00
// Special case for first line in function; move it to the start.
if firstPos != src.NoXPos {
s.SetPos(firstPos)
firstPos = src.NoXPos
}
cmd/compile: mark empty block preemptible Currently, a block's control instruction gets the liveness info of the last Value in the block. However, for an empty block, the control instruction gets the invalid liveness info and therefore not preemptible. One example is empty infinite loop, which has only a control instruction. The control instruction being non- preemptible makes the whole loop non-preemptible. Fix this by using a different, preemptible liveness info for empty block's control. We can choose an arbitrary preemptible liveness info, as at run time we don't really use the liveness map at that instruction. As before, if the last Value in the block is non-preemptible, so is the block control. For example, the conditional branch in the write barrier test block is still non-preemptible. Also, only update liveness info if we are actually emitting instructions. So zero-width Values' liveness info (which are always invalid) won't affect the block control's liveness info. For example, if the last Values in a block is a tuple-generating operation and a Select, the block control instruction is still preemptible. Fixes #35923. Change-Id: Ic5225f3254b07e4955f7905329b544515907642b Reviewed-on: https://go-review.googlesource.com/c/go/+/209659 Run-TryBot: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-12-02 22:56:40 -05:00
// let the backend handle it
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
thearch.SSAGenValue(&s, v)
cmd/compile: refactor portable SSA Op handling Several SSA ops will always behave identically regardless of target architecture, so handle those within gc/ssa.go instead. Passes toolstash-check -all. Change-Id: I54d514e80ab86723e44332a5a38e3054cbca8c5d Reviewed-on: https://go-review.googlesource.com/37931 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-03-07 12:31:59 -08:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Ctxt.Flag_locationlists {
cmd/compile: adjust locationlist lifetimes A statement like foo = bar + qux might compile to AX := AX + BX resulting in a regkill for AX before this instruction. The buggy behavior is to kill AX "at" this instruction, before it has executed. (Code generation of no-instruction values like RegKills applies their effects at the next actual instruction emitted). However, bar is still associated with AX until after the instruction executes, so the effect of the regkill must occur at the boundary between this instruction and the next. Similarly, the new value bound to AX is not visible until this instruction executes (and in the case of values that require multiple instructions in code generation, until all of them have executed). The ranges are adjusted so that a value's start occurs at the next following instruction after its evaluation, and the end occurs after (execution of) the first instruction following the end of the lifetime as a value. (Notice the asymmetry; the entire value must be finished before it is visible, but execution of a single instruction invalidates. However, the value *is* visible before that next instruction executes). The test was adjusted to make it insensitive to the result numbering for variables printed by gdb, since that is not relevant to the test and makes the differences introduced by small changes larger than necessary/useful. The test was also improved to present variable probes more intuitively, and also to allow explicit indication of "this variable was optimized out" Change-Id: I39453eead8399e6bb05ebd957289b112d1100c0e Reviewed-on: https://go-review.googlesource.com/74090 Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-27 17:02:11 -04:00
valueToProgAfter[v.ID] = s.pp.next
[dev.debug] cmd/compile: better DWARF with optimizations on Debuggers use DWARF information to find local variables on the stack and in registers. Prior to this CL, the DWARF information for functions claimed that all variables were on the stack at all times. That's incorrect when optimizations are enabled, and results in debuggers showing data that is out of date or complete gibberish. After this CL, the compiler is capable of representing variable locations more accurately, and attempts to do so. Due to limitations of the SSA backend, it's not possible to be completely correct. There are a number of problems in the current design. One of the easier to understand is that variable names currently must be attached to an SSA value, but not all assignments in the source code actually result in machine code. For example: type myint int var a int b := myint(int) and b := (*uint64)(unsafe.Pointer(a)) don't generate machine code because the underlying representation is the same, so the correct value of b will not be set when the user would expect. Generating the more precise debug information is behind a flag, dwarflocationlists. Because of the issues described above, setting the flag may not make the debugging experience much better, and may actually make it worse in cases where the variable actually is on the stack and the more complicated analysis doesn't realize it. A number of changes are included: - Add a new pseudo-instruction, RegKill, which indicates that the value in the register has been clobbered. - Adjust regalloc to emit RegKills in the right places. Significantly, this means that phis are mixed with StoreReg and RegKills after regalloc. - Track variable decomposition in ssa.LocalSlots. - After the SSA backend is done, analyze the result and build location lists for each LocalSlot. - After assembly is done, update the location lists with the assembled PC offsets, recompose variables, and build DWARF location lists. Emit the list as a new linker symbol, one per function. - In the linker, aggregate the location lists into a .debug_loc section. TODO: - currently disabled for non-X86/AMD64 because there are no data tables. go build -toolexec 'toolstash -cmp' -a std succeeds. With -dwarflocationlists false: before: f02812195637909ff675782c0b46836a8ff01976 after: 06f61e8112a42ac34fb80e0c818b3cdb84a5e7ec benchstat -geomean /tmp/220352263 /tmp/621364410 completed 15 of 15, estimated time remaining 0s (eta 3:52PM) name old time/op new time/op delta Template 199ms ± 3% 198ms ± 2% ~ (p=0.400 n=15+14) Unicode 96.6ms ± 5% 96.4ms ± 5% ~ (p=0.838 n=15+15) GoTypes 653ms ± 2% 647ms ± 2% ~ (p=0.102 n=15+14) Flate 133ms ± 6% 129ms ± 3% -2.62% (p=0.041 n=15+15) GoParser 164ms ± 5% 159ms ± 3% -3.05% (p=0.000 n=15+15) Reflect 428ms ± 4% 422ms ± 3% ~ (p=0.156 n=15+13) Tar 123ms ±10% 124ms ± 8% ~ (p=0.461 n=15+15) XML 228ms ± 3% 224ms ± 3% -1.57% (p=0.045 n=15+15) [Geo mean] 206ms 377ms +82.86% name old user-time/op new user-time/op delta Template 292ms ±10% 301ms ±12% ~ (p=0.189 n=15+15) Unicode 166ms ±37% 158ms ±14% ~ (p=0.418 n=15+14) GoTypes 962ms ± 6% 963ms ± 7% ~ (p=0.976 n=15+15) Flate 207ms ±19% 200ms ±14% ~ (p=0.345 n=14+15) GoParser 246ms ±22% 240ms ±15% ~ (p=0.587 n=15+15) Reflect 611ms ±13% 587ms ±14% ~ (p=0.085 n=15+13) Tar 211ms ±12% 217ms ±14% ~ (p=0.355 n=14+15) XML 335ms ±15% 320ms ±18% ~ (p=0.169 n=15+15) [Geo mean] 317ms 583ms +83.72% name old alloc/op new alloc/op delta Template 40.2MB ± 0% 40.2MB ± 0% -0.15% (p=0.000 n=14+15) Unicode 29.2MB ± 0% 29.3MB ± 0% ~ (p=0.624 n=15+15) GoTypes 114MB ± 0% 114MB ± 0% -0.15% (p=0.000 n=15+14) Flate 25.7MB ± 0% 25.6MB ± 0% -0.18% (p=0.000 n=13+15) GoParser 32.2MB ± 0% 32.2MB ± 0% -0.14% (p=0.003 n=15+15) Reflect 77.8MB ± 0% 77.9MB ± 0% ~ (p=0.061 n=15+15) Tar 27.1MB ± 0% 27.0MB ± 0% -0.11% (p=0.029 n=15+15) XML 42.7MB ± 0% 42.5MB ± 0% -0.29% (p=0.000 n=15+15) [Geo mean] 42.1MB 75.0MB +78.05% name old allocs/op new allocs/op delta Template 402k ± 1% 398k ± 0% -0.91% (p=0.000 n=15+15) Unicode 344k ± 1% 344k ± 0% ~ (p=0.715 n=15+14) GoTypes 1.18M ± 0% 1.17M ± 0% -0.91% (p=0.000 n=15+14) Flate 243k ± 0% 240k ± 1% -1.05% (p=0.000 n=13+15) GoParser 327k ± 1% 324k ± 1% -0.96% (p=0.000 n=15+15) Reflect 984k ± 1% 982k ± 0% ~ (p=0.050 n=15+15) Tar 261k ± 1% 259k ± 1% -0.77% (p=0.000 n=15+15) XML 411k ± 0% 404k ± 1% -1.55% (p=0.000 n=15+15) [Geo mean] 439k 755k +72.01% name old text-bytes new text-bytes delta HelloSize 694kB ± 0% 694kB ± 0% -0.00% (p=0.000 n=15+15) name old data-bytes new data-bytes delta HelloSize 5.55kB ± 0% 5.55kB ± 0% ~ (all equal) name old bss-bytes new bss-bytes delta HelloSize 133kB ± 0% 133kB ± 0% ~ (all equal) name old exe-bytes new exe-bytes delta HelloSize 1.04MB ± 0% 1.04MB ± 0% ~ (all equal) Change-Id: I991fc553ef175db46bb23b2128317bbd48de70d8 Reviewed-on: https://go-review.googlesource.com/41770 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:30:19 -04:00
}
cmd/compile: reimplement location list generation Completely redesign and reimplement location list generation to be more efficient, and hopefully not too hard to understand. RegKills are gone. Instead of using the regalloc's liveness calculations, redo them using the Ops' clobber information. Besides saving a lot of Values, this avoids adding RegKills to blocks that would be empty otherwise, which was messing up optimizations. This does mean that it's much harder to tell whether the generation process is buggy (there's nothing to cross-check it with), and there may be disagreements with GC liveness. But the performance gain is significant, and it's nice not to be messing with earlier compiler phases. The intermediate representations are gone. Instead of producing ssa.BlockDebugs, then dwarf.LocationLists, and then finally real location lists, go directly from the SSA to a (mostly) real location list. Because the SSA analysis happens before assembly, it stores encoded block/value IDs where PCs would normally go. It would be easier to do the SSA analysis after assembly, but I didn't want to retain the SSA just for that. Generation proceeds in two phases: first, it traverses the function in CFG order, storing the state of the block at the beginning and end. End states are used to produce the start states of the successor blocks. In the second phase, it traverses in program text order and produces the location lists. The processing in the second phase is redundant, but much cheaper than storing the intermediate representation. It might be possible to combine the two phases somewhat to take advantage of cases where the CFG matches the block layout, but I haven't tried. Location lists are finalized by adding a base address selection entry, translating each encoded block/value ID to a real PC, and adding the terminating zero entry. This probably won't work on OSX, where dsymutil will choke on the base address selection. I tried emitting CU-relative relocations for each address, and it was *very* bad for performance -- it uses more memory storing all the relocations than it does for the actual location list bytes. I think I'm going to end up synthesizing the relocations in the linker only on OSX, but TBD. TestNexting needs updating: with more optimizations working, the debugger doesn't stop on the continue (line 88) any more, and the test's duplicate suppression kicks in. Also, dx and dy live a little longer now, but they have the correct values. Change-Id: Ie772dfe23a4e389ca573624fac4d05401ae32307 Reviewed-on: https://go-review.googlesource.com/89356 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-10-26 15:40:17 -04:00
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
if f.PrintOrHtmlSSA {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
for ; x != s.pp.next; x = x.Link {
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
progToValue[x] = v
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
cmd/compile: enhance debug_test for infinite loops ssa/debug_test.go already had a step limit; this exposes it to individual tests, and it is then set low for the infinite loop tests. That however is not enough; in an infinite loop debuggers see an unchanging line number, and therefore keep trying until they see a different one. To do this, the concept of a "bogus" line number is introduced, and on output single-instruction infinite loops are detected and a hardware nop with correct line number is inserted into the loop; the branch itself receives a bogus line number. This breaks up the endless stream of same line number and causes both gdb and delve to not hang; Delve complains about the incorrect line number while gdb does a sort of odd step-to-nowhere that then steps back to the loop. Since repeats are suppressed in the reference file, a single line is shown there. (The wrong line number mentioned in previous message was an artifact of debug_test.go, not Delve, and is now fixed.) The bogus line number exposed in Delve is less than wonderful, but compared to hanging, it is better. Fixes #30664. Change-Id: I30c927cf8869a84c6c9b84033ee44d7044aab552 Reviewed-on: https://go-review.googlesource.com/c/go/+/168477 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-03-20 14:29:28 -04:00
// If this is an empty infinite loop, stick a hardware NOP in there so that debuggers are less confused.
if s.bstart[b.ID] == s.pp.next && len(b.Succs) == 1 && b.Succs[0].Block() == b {
p := thearch.Ginsnop(s.pp)
p.Pos = p.Pos.WithIsStmt()
cmd/compile: make a better bogus line for empty infinite loops The old recipe for making an infinite loop not be infinite in the debugger could create an instruction (Prog) with a line number not tied to any file (index == 0). This caused downstream failures in DWARF processing. So don't do that. Also adds a test, also adds a check+panic to ensure that the next time this happens the error is less mystifying. Fixes #35652 Change-Id: I04f30bc94fdc4aef20dd9130561303ff84fd945e Reviewed-on: https://go-review.googlesource.com/c/go/+/207613 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-11-18 14:14:22 -05:00
if b.Pos == src.NoXPos {
b.Pos = p.Pos // It needs a file, otherwise a no-file non-zero line causes confusion. See #35652.
cmd/compile: try harder to not use an empty src.XPos for a bogus line The fix for #35652 did not guarantee that it was using a non-empty src position to replace an empty one. The new code checks again and falls back to a more certain position. (The input in question compiles to a single empty infinite loop, and none of the actual instructions had any source position at all. That is a bug, but given the pathology of this input, not one worth dealing with this late in the release cycle, if ever.) Literally: 00000 (5) TEXT "".f(SB), ABIInternal 00001 (5) PCDATA $0, $-2 00002 (5) PCDATA $1, $-2 00003 (5) FUNCDATA $0, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 00004 (5) FUNCDATA $1, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) 00005 (5) FUNCDATA $2, gclocals·33cdeccccebe80329f1fdbee7f5874cb(SB) b2 00006 (?) XCHGL AX, AX b6 00007 (+1048575) JMP 6 00008 (?) END TODO: Add runtime.InfiniteLoop(), replace infinite loops with a call to that, and use an eco-friendly runtime.gopark instead. (This was Cherry's excellent idea.) Updates #35652 Fixes #35695 Change-Id: I4b9a841142ee4df0f6b10863cfa0721a7e13b437 Reviewed-on: https://go-review.googlesource.com/c/go/+/207964 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-11-19 13:23:35 -05:00
if b.Pos == src.NoXPos {
b.Pos = pp.Text.Pos // Sometimes p.Pos is empty. See #35695.
}
cmd/compile: make a better bogus line for empty infinite loops The old recipe for making an infinite loop not be infinite in the debugger could create an instruction (Prog) with a line number not tied to any file (index == 0). This caused downstream failures in DWARF processing. So don't do that. Also adds a test, also adds a check+panic to ensure that the next time this happens the error is less mystifying. Fixes #35652 Change-Id: I04f30bc94fdc4aef20dd9130561303ff84fd945e Reviewed-on: https://go-review.googlesource.com/c/go/+/207613 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-11-18 14:14:22 -05:00
}
cmd/compile: enhance debug_test for infinite loops ssa/debug_test.go already had a step limit; this exposes it to individual tests, and it is then set low for the infinite loop tests. That however is not enough; in an infinite loop debuggers see an unchanging line number, and therefore keep trying until they see a different one. To do this, the concept of a "bogus" line number is introduced, and on output single-instruction infinite loops are detected and a hardware nop with correct line number is inserted into the loop; the branch itself receives a bogus line number. This breaks up the endless stream of same line number and causes both gdb and delve to not hang; Delve complains about the incorrect line number while gdb does a sort of odd step-to-nowhere that then steps back to the loop. Since repeats are suppressed in the reference file, a single line is shown there. (The wrong line number mentioned in previous message was an artifact of debug_test.go, not Delve, and is now fixed.) The bogus line number exposed in Delve is less than wonderful, but compared to hanging, it is better. Fixes #30664. Change-Id: I30c927cf8869a84c6c9b84033ee44d7044aab552 Reviewed-on: https://go-review.googlesource.com/c/go/+/168477 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-03-20 14:29:28 -04:00
b.Pos = b.Pos.WithBogusLine() // Debuggers are not good about infinite loops, force a change in line number
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
// Emit control flow instructions for block
var next *ssa.Block
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if i < len(f.Blocks)-1 && base.Flag.N == 0 {
[dev.ssa] cmd/compile: leave JMPs in when using -N Helps keep line numbers around for debugging, particularly for break and continue statements (which often compile down to nothing). Update #14379 Change-Id: I6ea06aa887b0450d9ba4f11e319e5c263f5a98ba Reviewed-on: https://go-review.googlesource.com/19848 Reviewed-by: David Chase <drchase@google.com>
2016-02-22 23:19:00 -08:00
// If -N, leave next==nil so every block with successors
[dev.ssa] cmd/compile: with -N, don't put JMPs after calls plive doesn't like the fact that we put JMPs right after CALL ops to select{send,recv}. Fixes SSA -N build. Change-Id: I9b3c9e5293196094fd5a6206dd2f99784951f7a9 Reviewed-on: https://go-review.googlesource.com/19982 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-02-26 16:32:01 -08:00
// ends in a JMP (except call blocks - plive doesn't like
// select{send,recv} followed by a JMP call). Helps keep
// line numbers for otherwise empty blocks.
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
next = f.Blocks[i+1]
}
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
x := s.pp.next
cmd/compile: eliminate direct uses of gc.Thearch in backends This CL changes the GOARCH.Init functions to take gc.Thearch as a parameter, which gc.Main supplies. Additionally, the x86 backend is refactored to decide within Init whether to use the 387 or SSE2 instruction generators, rather than for each individual SSA Value/Block. Passes toolstash-check -all. Change-Id: Ie6305a6cd6f6ab4e89ecbb3cbbaf5ffd57057a24 Reviewed-on: https://go-review.googlesource.com/38301 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:31 -07:00
s.SetPos(b.Pos)
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
thearch.SSAGenBlock(&s, b, next)
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
if f.PrintOrHtmlSSA {
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
for ; x != s.pp.next; x = x.Link {
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
progToBlock[x] = b
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
cmd/compile: remove AUNDEF opcode This opcode was only used to mark unreachable code for plive to use. plive now uses the SSA representation, so it knows locations are unreachable because they are ends of Exit blocks. It doesn't need these opcodes any more. These opcodes actually used space in the binary, 2 bytes per undef on x86 and more for other archs. Makes the amd64 go binary 0.2% smaller. Change-Id: I64c84c35db7c7949617a3a5830f09c8e5fcd2620 Reviewed-on: https://go-review.googlesource.com/c/go/+/171058 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2019-04-06 12:42:51 -07:00
if f.Blocks[len(f.Blocks)-1].Kind == ssa.BlockExit {
// We need the return address of a panic call to
// still be inside the function in question. So if
// it ends in a call which doesn't return, add a
// nop (which will never execute) after the call.
thearch.Ginsnop(pp)
}
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
if openDeferInfo != nil {
// When doing open-coded defers, generate a disconnected call to
// deferreturn and a return. This will be used to during panic
// recovery to unwind the stack and return back to the runtime.
cmd/compile: fix live variable computation for deferreturn Taking the live variable set from the last return point is problematic. See #40629 for details, but there may not be a return point, or it may be before the final defer. Additionally, keeping track of the last call as a *Value doesn't quite work. If it is dead-code eliminated, the storage for the Value is reused for some other random instruction. Its live variable information, if it is available at all, is wrong. Instead, just mark all the open-defer argument slots as live throughout the function. (They are already zero-initialized.) Fixes #40629 Change-Id: Ie456c7db3082d0de57eaa5234a0f32525a1cce13 Reviewed-on: https://go-review.googlesource.com/c/go/+/247522 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Dan Scales <danscales@google.com>
2020-08-08 07:58:04 -07:00
s.pp.nextLive = s.livenessMap.deferreturn
cmd/compile, cmd/link, runtime: make defers low-cost through inline code and extra funcdata Generate inline code at defer time to save the args of defer calls to unique (autotmp) stack slots, and generate inline code at exit time to check which defer calls were made and make the associated function/method/interface calls. We remember that a particular defer statement was reached by storing in the deferBits variable (always stored on the stack). At exit time, we check the bits of the deferBits variable to determine which defer function calls to make (in reverse order). These low-cost defers are only used for functions where no defers appear in loops. In addition, we don't do these low-cost defers if there are too many defer statements or too many exits in a function (to limit code increase). When a function uses open-coded defers, we produce extra FUNCDATA_OpenCodedDeferInfo information that specifies the number of defers, and for each defer, the stack slots where the closure and associated args have been stored. The funcdata also includes the location of the deferBits variable. Therefore, for panics, we can use this funcdata to determine exactly which defers are active, and call the appropriate functions/methods/closures with the correct arguments for each active defer. In order to unwind the stack correctly after a recover(), we need to add an extra code segment to functions with open-coded defers that simply calls deferreturn() and returns. This segment is not reachable by the normal function, but is returned to by the runtime during recovery. We set the liveness information of this deferreturn() to be the same as the liveness at the first function call during the last defer exit code (so all return values and all stack slots needed by the defer calls will be live). I needed to increase the stackguard constant from 880 to 896, because of a small amount of new code in deferreturn(). The -N flag disables open-coded defers. '-d defer' prints out the kind of defer being used at each defer statement (heap-allocated, stack-allocated, or open-coded). Cost of defer statement [ go test -run NONE -bench BenchmarkDefer$ runtime ] With normal (stack-allocated) defers only: 35.4 ns/op With open-coded defers: 5.6 ns/op Cost of function call alone (remove defer keyword): 4.4 ns/op Text size increase (including funcdata) for go binary without/with open-coded defers: 0.09% The average size increase (including funcdata) for only the functions that use open-coded defers is 1.1%. The cost of a panic followed by a recover got noticeably slower, since panic processing now requires a scan of the stack for open-coded defer frames. This scan is required, even if no frames are using open-coded defers: Cost of panic and recover [ go test -run NONE -bench BenchmarkPanicRecover runtime ] Without open-coded defers: 62.0 ns/op With open-coded defers: 255 ns/op A CGO Go-to-C-to-Go benchmark got noticeably faster because of open-coded defers: CGO Go-to-C-to-Go benchmark [cd misc/cgo/test; go test -run NONE -bench BenchmarkCGoCallback ] Without open-coded defers: 443 ns/op With open-coded defers: 347 ns/op Updates #14939 (defer performance) Updates #34481 (design doc) Change-Id: I63b1a60d1ebf28126f55ee9fd7ecffe9cb23d1ff Reviewed-on: https://go-review.googlesource.com/c/go/+/202340 Reviewed-by: Austin Clements <austin@google.com>
2019-06-24 12:59:22 -07:00
gencallret(pp, Deferreturn)
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
cmd/compile: use existing instructions instead of nops for inline marks Instead of always inserting a nop to use as the target of an inline mark, see if we can instead find an instruction we're issuing anyway with the correct line number, and use that instruction. That way, we don't need to issue a nop. Makes cmd/go 0.3% smaller. Update #29571 Change-Id: If6cfc93ab3352ec2c6e0878f8074a3bf0786b2f8 Reviewed-on: https://go-review.googlesource.com/c/go/+/158021 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-15 14:50:09 -08:00
if inlMarks != nil {
// We have some inline marks. Try to find other instructions we're
// going to emit anyway, and use those instructions instead of the
// inline marks.
for p := pp.Text; p != nil; p = p.Link {
if p.As == obj.ANOP || p.As == obj.AFUNCDATA || p.As == obj.APCDATA || p.As == obj.ATEXT || p.As == obj.APCALIGN || thearch.LinkArch.Family == sys.Wasm {
// Don't use 0-sized instructions as inline marks, because we need
// to identify inline mark instructions by pc offset.
// (Some of these instructions are sometimes zero-sized, sometimes not.
// We must not use anything that even might be zero-sized.)
// TODO: are there others?
continue
}
if _, ok := inlMarks[p]; ok {
// Don't use inline marks themselves. We don't know
// whether they will be zero-sized or not yet.
continue
}
pos := p.Pos.AtColumn1()
s := inlMarksByPos[pos]
if len(s) == 0 {
continue
}
for _, m := range s {
// We found an instruction with the same source position as
// some of the inline marks.
// Use this instruction instead.
cmd/compile: always mark atColumn1 results as statements In 31618, we end up comparing the is-stmt-ness of positions to repurpose real instructions as inline marks. If the is-stmt-ness doesn't match, we end up not being able to remove the inline mark. Always use statement-full positions to do the matching, so we always find a match if there is one. Also always use positions that are statements for inline marks. Fixes #31618 Change-Id: Idaf39bdb32fa45238d5cd52973cadf4504f947d5 Reviewed-on: https://go-review.googlesource.com/c/go/+/173324 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-04-22 18:21:37 -07:00
p.Pos = p.Pos.WithIsStmt() // promote position to a statement
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pp.curfn.Func().LSym.Func().AddInlMark(p, inlMarks[m])
cmd/compile: use existing instructions instead of nops for inline marks Instead of always inserting a nop to use as the target of an inline mark, see if we can instead find an instruction we're issuing anyway with the correct line number, and use that instruction. That way, we don't need to issue a nop. Makes cmd/go 0.3% smaller. Update #29571 Change-Id: If6cfc93ab3352ec2c6e0878f8074a3bf0786b2f8 Reviewed-on: https://go-review.googlesource.com/c/go/+/158021 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-15 14:50:09 -08:00
// Make the inline mark a real nop, so it doesn't generate any code.
m.As = obj.ANOP
m.Pos = src.NoXPos
m.From = obj.Addr{}
m.To = obj.Addr{}
}
delete(inlMarksByPos, pos)
}
// Any unmatched inline marks now need to be added to the inlining tree (and will generate a nop instruction).
for _, p := range inlMarkList {
if p.As != obj.ANOP {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pp.curfn.Func().LSym.Func().AddInlMark(p, inlMarks[p])
cmd/compile: use existing instructions instead of nops for inline marks Instead of always inserting a nop to use as the target of an inline mark, see if we can instead find an instruction we're issuing anyway with the correct line number, and use that instruction. That way, we don't need to issue a nop. Makes cmd/go 0.3% smaller. Update #29571 Change-Id: If6cfc93ab3352ec2c6e0878f8074a3bf0786b2f8 Reviewed-on: https://go-review.googlesource.com/c/go/+/158021 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2019-01-15 14:50:09 -08:00
}
}
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if base.Ctxt.Flag_locationlists {
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
debugInfo := ssa.BuildFuncDebug(base.Ctxt, f, base.Debug.LocationLists > 1, stackOffset)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
e.curfn.Func().DebugInfo = debugInfo
cmd/compile: reimplement location list generation Completely redesign and reimplement location list generation to be more efficient, and hopefully not too hard to understand. RegKills are gone. Instead of using the regalloc's liveness calculations, redo them using the Ops' clobber information. Besides saving a lot of Values, this avoids adding RegKills to blocks that would be empty otherwise, which was messing up optimizations. This does mean that it's much harder to tell whether the generation process is buggy (there's nothing to cross-check it with), and there may be disagreements with GC liveness. But the performance gain is significant, and it's nice not to be messing with earlier compiler phases. The intermediate representations are gone. Instead of producing ssa.BlockDebugs, then dwarf.LocationLists, and then finally real location lists, go directly from the SSA to a (mostly) real location list. Because the SSA analysis happens before assembly, it stores encoded block/value IDs where PCs would normally go. It would be easier to do the SSA analysis after assembly, but I didn't want to retain the SSA just for that. Generation proceeds in two phases: first, it traverses the function in CFG order, storing the state of the block at the beginning and end. End states are used to produce the start states of the successor blocks. In the second phase, it traverses in program text order and produces the location lists. The processing in the second phase is redundant, but much cheaper than storing the intermediate representation. It might be possible to combine the two phases somewhat to take advantage of cases where the CFG matches the block layout, but I haven't tried. Location lists are finalized by adding a base address selection entry, translating each encoded block/value ID to a real PC, and adding the terminating zero entry. This probably won't work on OSX, where dsymutil will choke on the base address selection. I tried emitting CU-relative relocations for each address, and it was *very* bad for performance -- it uses more memory storing all the relocations than it does for the actual location list bytes. I think I'm going to end up synthesizing the relocations in the linker only on OSX, but TBD. TestNexting needs updating: with more optimizations working, the debugger doesn't stop on the continue (line 88) any more, and the test's duplicate suppression kicks in. Also, dx and dy live a little longer now, but they have the correct values. Change-Id: Ie772dfe23a4e389ca573624fac4d05401ae32307 Reviewed-on: https://go-review.googlesource.com/89356 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-10-26 15:40:17 -04:00
bstart := s.bstart
// Note that at this moment, Prog.Pc is a sequence number; it's
// not a real PC until after assembly, so this mapping has to
// be done later.
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
debugInfo.GetPC = func(b, v ssa.ID) int64 {
cmd/compile: reimplement location list generation Completely redesign and reimplement location list generation to be more efficient, and hopefully not too hard to understand. RegKills are gone. Instead of using the regalloc's liveness calculations, redo them using the Ops' clobber information. Besides saving a lot of Values, this avoids adding RegKills to blocks that would be empty otherwise, which was messing up optimizations. This does mean that it's much harder to tell whether the generation process is buggy (there's nothing to cross-check it with), and there may be disagreements with GC liveness. But the performance gain is significant, and it's nice not to be messing with earlier compiler phases. The intermediate representations are gone. Instead of producing ssa.BlockDebugs, then dwarf.LocationLists, and then finally real location lists, go directly from the SSA to a (mostly) real location list. Because the SSA analysis happens before assembly, it stores encoded block/value IDs where PCs would normally go. It would be easier to do the SSA analysis after assembly, but I didn't want to retain the SSA just for that. Generation proceeds in two phases: first, it traverses the function in CFG order, storing the state of the block at the beginning and end. End states are used to produce the start states of the successor blocks. In the second phase, it traverses in program text order and produces the location lists. The processing in the second phase is redundant, but much cheaper than storing the intermediate representation. It might be possible to combine the two phases somewhat to take advantage of cases where the CFG matches the block layout, but I haven't tried. Location lists are finalized by adding a base address selection entry, translating each encoded block/value ID to a real PC, and adding the terminating zero entry. This probably won't work on OSX, where dsymutil will choke on the base address selection. I tried emitting CU-relative relocations for each address, and it was *very* bad for performance -- it uses more memory storing all the relocations than it does for the actual location list bytes. I think I'm going to end up synthesizing the relocations in the linker only on OSX, but TBD. TestNexting needs updating: with more optimizations working, the debugger doesn't stop on the continue (line 88) any more, and the test's duplicate suppression kicks in. Also, dx and dy live a little longer now, but they have the correct values. Change-Id: Ie772dfe23a4e389ca573624fac4d05401ae32307 Reviewed-on: https://go-review.googlesource.com/89356 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-10-26 15:40:17 -04:00
switch v {
case ssa.BlockStart.ID:
cmd/compile: begin OpArg and OpPhi location lists at block start For the entry block, make the "first instruction" be truly the first instruction. This allows printing of incoming parameters with Delve. Also be sure Phis are marked as being at the start of their block. This is observed to move location list pointers, and where moved, they become correct. Leading zero-width instructions include LoweredGetClosurePtr. Because this instruction is actually architecture-specific, and it is now tested for in 3 different places, also created Op.isLoweredGetClosurePtr() to reduce future surprises. Change-Id: Ic043b7265835cf1790382a74334b5714ae4060af Reviewed-on: https://go-review.googlesource.com/c/145179 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2018-10-26 12:00:07 -04:00
if b == f.Entry.ID {
return 0 // Start at the very beginning, at the assembler-generated prologue.
// this should only happen for function args (ssa.OpArg)
}
cmd: avoid unnecessary type conversions CL generated mechanically with github.com/mdempsky/unconvert. Also updated cmd/compile/internal/ssa/gen/*.rules manually. Change-Id: If721ef73cf0771ae83ce7e2d11623fc8d9155768 Reviewed-on: https://go-review.googlesource.com/97075 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-02-25 20:08:22 +09:00
return bstart[b].Pc
cmd/compile: reimplement location list generation Completely redesign and reimplement location list generation to be more efficient, and hopefully not too hard to understand. RegKills are gone. Instead of using the regalloc's liveness calculations, redo them using the Ops' clobber information. Besides saving a lot of Values, this avoids adding RegKills to blocks that would be empty otherwise, which was messing up optimizations. This does mean that it's much harder to tell whether the generation process is buggy (there's nothing to cross-check it with), and there may be disagreements with GC liveness. But the performance gain is significant, and it's nice not to be messing with earlier compiler phases. The intermediate representations are gone. Instead of producing ssa.BlockDebugs, then dwarf.LocationLists, and then finally real location lists, go directly from the SSA to a (mostly) real location list. Because the SSA analysis happens before assembly, it stores encoded block/value IDs where PCs would normally go. It would be easier to do the SSA analysis after assembly, but I didn't want to retain the SSA just for that. Generation proceeds in two phases: first, it traverses the function in CFG order, storing the state of the block at the beginning and end. End states are used to produce the start states of the successor blocks. In the second phase, it traverses in program text order and produces the location lists. The processing in the second phase is redundant, but much cheaper than storing the intermediate representation. It might be possible to combine the two phases somewhat to take advantage of cases where the CFG matches the block layout, but I haven't tried. Location lists are finalized by adding a base address selection entry, translating each encoded block/value ID to a real PC, and adding the terminating zero entry. This probably won't work on OSX, where dsymutil will choke on the base address selection. I tried emitting CU-relative relocations for each address, and it was *very* bad for performance -- it uses more memory storing all the relocations than it does for the actual location list bytes. I think I'm going to end up synthesizing the relocations in the linker only on OSX, but TBD. TestNexting needs updating: with more optimizations working, the debugger doesn't stop on the continue (line 88) any more, and the test's duplicate suppression kicks in. Also, dx and dy live a little longer now, but they have the correct values. Change-Id: Ie772dfe23a4e389ca573624fac4d05401ae32307 Reviewed-on: https://go-review.googlesource.com/89356 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-10-26 15:40:17 -04:00
case ssa.BlockEnd.ID:
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
return e.curfn.Func().LSym.Size
cmd/compile: reimplement location list generation Completely redesign and reimplement location list generation to be more efficient, and hopefully not too hard to understand. RegKills are gone. Instead of using the regalloc's liveness calculations, redo them using the Ops' clobber information. Besides saving a lot of Values, this avoids adding RegKills to blocks that would be empty otherwise, which was messing up optimizations. This does mean that it's much harder to tell whether the generation process is buggy (there's nothing to cross-check it with), and there may be disagreements with GC liveness. But the performance gain is significant, and it's nice not to be messing with earlier compiler phases. The intermediate representations are gone. Instead of producing ssa.BlockDebugs, then dwarf.LocationLists, and then finally real location lists, go directly from the SSA to a (mostly) real location list. Because the SSA analysis happens before assembly, it stores encoded block/value IDs where PCs would normally go. It would be easier to do the SSA analysis after assembly, but I didn't want to retain the SSA just for that. Generation proceeds in two phases: first, it traverses the function in CFG order, storing the state of the block at the beginning and end. End states are used to produce the start states of the successor blocks. In the second phase, it traverses in program text order and produces the location lists. The processing in the second phase is redundant, but much cheaper than storing the intermediate representation. It might be possible to combine the two phases somewhat to take advantage of cases where the CFG matches the block layout, but I haven't tried. Location lists are finalized by adding a base address selection entry, translating each encoded block/value ID to a real PC, and adding the terminating zero entry. This probably won't work on OSX, where dsymutil will choke on the base address selection. I tried emitting CU-relative relocations for each address, and it was *very* bad for performance -- it uses more memory storing all the relocations than it does for the actual location list bytes. I think I'm going to end up synthesizing the relocations in the linker only on OSX, but TBD. TestNexting needs updating: with more optimizations working, the debugger doesn't stop on the continue (line 88) any more, and the test's duplicate suppression kicks in. Also, dx and dy live a little longer now, but they have the correct values. Change-Id: Ie772dfe23a4e389ca573624fac4d05401ae32307 Reviewed-on: https://go-review.googlesource.com/89356 Run-TryBot: Heschi Kreinick <heschi@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-10-26 15:40:17 -04:00
default:
cmd: avoid unnecessary type conversions CL generated mechanically with github.com/mdempsky/unconvert. Also updated cmd/compile/internal/ssa/gen/*.rules manually. Change-Id: If721ef73cf0771ae83ce7e2d11623fc8d9155768 Reviewed-on: https://go-review.googlesource.com/97075 Reviewed-by: Matthew Dempsky <mdempsky@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2018-02-25 20:08:22 +09:00
return valueToProgAfter[v].Pc
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
cmd/compile: begin OpArg and OpPhi location lists at block start For the entry block, make the "first instruction" be truly the first instruction. This allows printing of incoming parameters with Delve. Also be sure Phis are marked as being at the start of their block. This is observed to move location list pointers, and where moved, they become correct. Leading zero-width instructions include LoweredGetClosurePtr. Because this instruction is actually architecture-specific, and it is now tested for in 3 different places, also created Op.isLoweredGetClosurePtr() to reduce future surprises. Change-Id: Ic043b7265835cf1790382a74334b5714ae4060af Reviewed-on: https://go-review.googlesource.com/c/145179 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2018-10-26 12:00:07 -04:00
// Resolve branches, and relax DefaultStmt into NotStmt
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
for _, br := range s.Branches {
cmd/compile,cmd/asm: simplify recording of branch targets, take 2 We currently use two fields to store the targets of branches. Some phases use p.To.Val, some use p.Pcond. Rewrite so that every branch instruction uses p.To.Val. p.From.Val is also used in rare instances. Introduce a Pool link for use by arm/arm64, instead of repurposing Pcond. This is a cleanup CL in preparation for some stack frame CLs. Change-Id: If8239177e4b1ea2bccd0608eb39553d23210d405 Reviewed-on: https://go-review.googlesource.com/c/go/+/251437 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-28 17:10:32 +00:00
br.P.To.SetTarget(s.bstart[br.B.ID])
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
if br.P.Pos.IsStmt() != src.PosIsStmt {
br.P.Pos = br.P.Pos.WithNotStmt()
cmd/compile: move statement marks from jumps to targets When a jump at the end of a block is about to be marked as a statement, if the first real instruction in the target block is also a statement for the same line, remove the mark from the jump. This is a first effort at a minimal-harm heuristic. A better heuristic might skip over any "not-statement" values preceding a definitely marked value. Fixes #29443. Change-Id: Ibd52783713b4936e0c2dfda8d708bf186f33b00a Reviewed-on: https://go-review.googlesource.com/c/go/+/159977 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Alessandro Arzilli <alessandro.arzilli@gmail.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-01-28 18:00:01 -05:00
} else if v0 := br.B.FirstPossibleStmtValue(); v0 != nil && v0.Pos.Line() == br.P.Pos.Line() && v0.Pos.IsStmt() == src.PosIsStmt {
br.P.Pos = br.P.Pos.WithNotStmt()
cmd/compile: assign and preserve statement boundaries. A new pass run after ssa building (before any other optimization) identifies the "first" ssa node for each statement. Other "noise" nodes are tagged as being never appropriate for a statement boundary (e.g., VarKill, VarDef, Phi). Rewrite, deadcode, cse, and nilcheck are modified to move the statement boundaries forward whenever possible if a boundary-tagged ssa value is removed; never-boundary nodes are ignored in this search (some operations involving constants are also tagged as never-boundary and also ignored because they are likely to be moved or removed during optimization). Code generation treats all nodes except those explicitly marked as statement boundaries as "not statement" nodes, and floats statement boundaries to the beginning of each same-line run of instructions found within a basic block. Line number html conversion was modified to make statement boundary nodes a bit more obvious by prepending a "+". The code in fuse.go that glued together the value slices of two blocks produced a result that depended on the former capacities (not lengths) of the two slices. This causes differences in the 386 bootstrap, and also can sometimes put values into an order that does a worse job of preserving statement boundaries when values are removed. Portions of two delve tests that had caught problems were incorporated into ssa/debug_test.go. There are some opportunities to do better with optimized code, but the next-ing is not lying or overly jumpy. Over 4 CLs, compilebench geomean measured binary size increase of 3.5% and compile user time increase of 3.8% (this is after optimization to reuse a sparse map instead of creating multiple maps.) This CL worsens the optimized-debugging experience with Delve; we need to work with the delve team so that they can use the is_stmt marks that we're emitting now. The reference output changes from time to time depending on other changes in the compiler, sometimes better, sometimes worse. This CL now includes a test ensuring that 99+% of the lines in the Go command itself (a handy optimized binary) include is_stmt markers. Change-Id: I359c94e06843f1eb41f9da437bd614885aa9644a Reviewed-on: https://go-review.googlesource.com/102435 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Austin Clements <austin@google.com>
2018-03-23 22:46:06 -04:00
}
cmd/compile: move statement marks from jumps to targets When a jump at the end of a block is about to be marked as a statement, if the first real instruction in the target block is also a statement for the same line, remove the mark from the jump. This is a first effort at a minimal-harm heuristic. A better heuristic might skip over any "not-statement" values preceding a definitely marked value. Fixes #29443. Change-Id: Ibd52783713b4936e0c2dfda8d708bf186f33b00a Reviewed-on: https://go-review.googlesource.com/c/go/+/159977 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Alessandro Arzilli <alessandro.arzilli@gmail.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2019-01-28 18:00:01 -05:00
[dev.ssa] cmd/compile/internal/gc: implement go and defer TODO: for now, just function calls. Do method and interface calls. Change-Id: Ib262dfa31cb753996cde899beaad4dc2e66705ac Reviewed-on: https://go-review.googlesource.com/14035 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-28 22:51:01 -07:00
}
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
if e.log { // spew to stdout
cmd/compile: improve debugging output for GOSSAFUNC This changes the assembly language output to use the innermost (instead of outermost) position for line number and file. The file is printed separately, only when it changes, to remove redundant and space-consuming noise from the output. Unknown positions have line number "?" The output format was changed slightly to make it easier to read. One source of gratuitous variation in debugging output was removed. Change-Id: I1fd9c8b0ddd82766488582fb684dce4b04f35723 Reviewed-on: https://go-review.googlesource.com/78895 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-20 16:47:08 -05:00
filename := ""
cmd/compile: eliminate Prog-related globals Introduce a new type, gc.Progs, to manage generation of Progs for a function. Use it to replace globals pc and pcloc. Passes toolstash-check -all. Updates #15756 Change-Id: I2206998d7c58fe2a76b620904909f2e1cec8a57d Reviewed-on: https://go-review.googlesource.com/38418 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-22 16:43:42 -07:00
for p := pp.Text; p != nil; p = p.Link {
cmd/compile: improve debugging output for GOSSAFUNC This changes the assembly language output to use the innermost (instead of outermost) position for line number and file. The file is printed separately, only when it changes, to remove redundant and space-consuming noise from the output. Unknown positions have line number "?" The output format was changed slightly to make it easier to read. One source of gratuitous variation in debugging output was removed. Change-Id: I1fd9c8b0ddd82766488582fb684dce4b04f35723 Reviewed-on: https://go-review.googlesource.com/78895 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-20 16:47:08 -05:00
if p.Pos.IsKnown() && p.InnermostFilename() != filename {
filename = p.InnermostFilename()
f.Logf("# %s\n", filename)
}
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
var s string
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
if v, ok := progToValue[p]; ok {
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
s = v.String()
[dev.debug] cmd/compile: rename some locals in genssa When we start tracking the mapping from Value to Prog, valueProgs will be confusing. Disambiguate. Change-Id: Ib3b302fedb7eb0ff1bde789d70a11656d82f0897 Reviewed-on: https://go-review.googlesource.com/50876 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:00:22 -04:00
} else if b, ok := progToBlock[p]; ok {
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
s = b.String()
} else {
s = " " // most value and branch strings are 2-3 characters long
}
cmd/compile: improve debugging output for GOSSAFUNC This changes the assembly language output to use the innermost (instead of outermost) position for line number and file. The file is printed separately, only when it changes, to remove redundant and space-consuming noise from the output. Unknown positions have line number "?" The output format was changed slightly to make it easier to read. One source of gratuitous variation in debugging output was removed. Change-Id: I1fd9c8b0ddd82766488582fb684dce4b04f35723 Reviewed-on: https://go-review.googlesource.com/78895 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-11-20 16:47:08 -05:00
f.Logf(" %-6s\t%.5d (%s)\t%s\n", s, p.Pc, p.InnermostLineNumber(), p.InstructionString())
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
}
cmd/compile: repair display of values & blocks in prog column This restores the printing of vXX and bYY in the left-hand edge of the last column of ssa.html, where the generated progs appear. Change-Id: I81ab9b2fa5ae28e6e5de1b77665cfbed8d14e000 Reviewed-on: https://go-review.googlesource.com/c/141277 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Yury Smolsky <yury@smolsky.by>
2018-10-10 16:08:24 -04:00
if f.HTMLWriter != nil { // spew to ssa.html
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
var buf bytes.Buffer
buf.WriteString("<code>")
buf.WriteString("<dl class=\"ssa-gen\">")
filename := ""
for p := pp.Text; p != nil; p = p.Link {
// Don't spam every line with the file name, which is often huge.
// Only print changes, and "unknown" is not a change.
if p.Pos.IsKnown() && p.InnermostFilename() != filename {
filename = p.InnermostFilename()
buf.WriteString("<dt class=\"ssa-prog-src\"></dt><dd class=\"ssa-prog\">")
buf.WriteString(html.EscapeString("# " + filename))
[dev.ssa] cmd/compile: add HTML SSA printer This is an initial implementation. There are many rough edges and TODOs, which will hopefully be polished out with use. Fixes #12071. Change-Id: I1d6fd5a343063b5200623bceef2c2cfcc885794e Reviewed-on: https://go-review.googlesource.com/13472 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-10 12:15:52 -07:00
buf.WriteString("</dd>")
}
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
buf.WriteString("<dt class=\"ssa-prog-src\">")
if v, ok := progToValue[p]; ok {
buf.WriteString(v.HTML())
} else if b, ok := progToBlock[p]; ok {
buf.WriteString("<b>" + b.HTML() + "</b>")
}
buf.WriteString("</dt>")
buf.WriteString("<dd class=\"ssa-prog\">")
buf.WriteString(fmt.Sprintf("%.5d <span class=\"l%v line-number\">(%s)</span> %s", p.Pc, p.InnermostLineNumber(), p.InnermostLineNumberHTML(), html.EscapeString(p.InstructionString())))
buf.WriteString("</dd>")
[dev.ssa] cmd/compile: add HTML SSA printer This is an initial implementation. There are many rough edges and TODOs, which will hopefully be polished out with use. Fixes #12071. Change-Id: I1d6fd5a343063b5200623bceef2c2cfcc885794e Reviewed-on: https://go-review.googlesource.com/13472 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-10 12:15:52 -07:00
}
cmd/compile: clean the output of GOSSAFUNC Since we print almost everything to ssa.html in the GOSSAFUNC mode, there is a need to stop spamming stdout when user just wants to see ssa.html. This changes cleans output of the GOSSAFUNC debug mode. To enable the dump of the debug data to stdout, one must put suffix + after the function name like that: GOSSAFUNC=Foo+ Otherwise gc will not print the IR and ASM to stdout after each phase. AST IR is still sent to stdout because it is not included into ssa.html. It will be fixed in a separate change. The change adds printing out the full path to the ssa.html file. Updates #25942 Change-Id: I711e145e05f0443c7df5459ca528dced273a62ee Reviewed-on: https://go-review.googlesource.com/126603 Run-TryBot: Yury Smolsky <yury@smolsky.by> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-07-24 10:39:00 +03:00
buf.WriteString("</dl>")
buf.WriteString("</code>")
f.HTMLWriter.WriteColumn("genssa", "genssa", "ssa-prog", buf.String())
[dev.ssa] cmd/compile: log progs during ssa codegen This is helpful when debugging generated code. Change-Id: I268efa3593a03bb2c4e9f07d9034c004cd40df41 Reviewed-on: https://go-review.googlesource.com/13099 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-31 14:37:15 -07:00
}
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
defframe(&s, e)
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
cmd/compile: rearrange fields between ssa.Func, ssa.Cache, and ssa.Config This makes ssa.Func, ssa.Cache, and ssa.Config fulfill the roles laid out for them in CL 38160. The only non-trivial change in this CL is how cached values and blocks get IDs. Prior to this CL, their IDs were assigned as part of resetting the cache, and only modified IDs were reset. This required knowing how many values and blocks were modified, which required a tight coupling between ssa.Func and ssa.Config. To eliminate that coupling, we now zero values and blocks during reset, and assign their IDs when they are used. Since unused values and blocks have ID == 0, we can efficiently find the last used value/block, to avoid zeroing everything. Bulk zeroing is efficient, but not efficient enough to obviate the need to avoid zeroing everything every time. As a happy side-effect, ssa.Func.Free is no longer necessary. DebugHashMatch and friends now belong in func.go. They have been left in place for clarity and review. I will move them in a subsequent CL. Passes toolstash -cmp. No compiler performance impact. No change in 'go test cmd/compile/internal/ssa' execution time. Change-Id: I2eb7af58da067ef6a36e815a6f386cfe8634d098 Reviewed-on: https://go-review.googlesource.com/38167 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-15 11:15:13 -07:00
f.HTMLWriter.Close()
f.HTMLWriter = nil
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
func defframe(s *SSAGenState, e *ssafn) {
pp := s.pp
frame := Rnd(s.maxarg+e.stksize, int64(Widthreg))
if thearch.PadFrame != nil {
frame = thearch.PadFrame(frame)
}
// Fill in argument and frame size.
pp.Text.To.Type = obj.TYPE_TEXTSIZE
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
pp.Text.To.Val = int32(Rnd(e.curfn.Type().ArgWidth(), int64(Widthreg)))
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
pp.Text.To.Offset = frame
// Insert code to zero ambiguously live variables so that the
// garbage collector only sees initialized values when it
// looks for pointers.
p := pp.Text
var lo, hi int64
// Opaque state for backend to use. Current backends use it to
// keep track of which helper registers have been zeroed.
var state uint32
// Iterate through declarations. They are sorted in decreasing Xoffset order.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
for _, n := range e.curfn.Func().Dcl {
if !n.Name().Needzero() {
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
continue
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() != ir.PAUTO {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
e.Fatalf(n.Pos(), "needzero class %d", n.Class())
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().Size()%int64(Widthptr) != 0 || n.Offset()%int64(Widthptr) != 0 || n.Type().Size() == 0 {
e.Fatalf(n.Pos(), "var %L has size %d offset %d", n, n.Type().Size(), n.Offset())
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if lo != hi && n.Offset()+n.Type().Size() >= lo-int64(2*Widthreg) {
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
// Merge with range we already have.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
lo = n.Offset()
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
continue
}
// Zero old range
p = thearch.ZeroRange(pp, p, frame+lo, hi-lo, &state)
// Set new range.
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
lo = n.Offset()
hi = lo + n.Type().Size()
cmd/compile/internal/gc: make defframe arch-independent The arch backends no longer depend on gc.Node. Passes toolstash-check -all. Change-Id: Ic7e49ae0a3ed155a2761c25e17cc341b46333fb4 Reviewed-on: https://go-review.googlesource.com/41196 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2017-04-20 10:31:39 -07:00
}
// Zero final range.
thearch.ZeroRange(pp, p, frame+lo, hi-lo, &state)
}
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
// For generating consecutive jump instructions to model a specific branching
type IndexJump struct {
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
Jump obj.As
Index int
[dev.ssa] cmd/compile: add FP comparison ops Basic ops, no particular optimization in the pattern matching yet (e.g. x!=x for Nan detection, x cmp constant, etc.) Change-Id: I0043564081d6dc0eede876c4a9eb3c33cbd1521c Reviewed-on: https://go-review.googlesource.com/13704 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-18 14:39:26 -04:00
}
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
func (s *SSAGenState) oneJump(b *ssa.Block, jump *IndexJump) {
p := s.Br(jump.Jump, b.Succs[jump.Index].Block())
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
p.Pos = b.Pos
[dev.ssa] cmd/compile: add FP comparison ops Basic ops, no particular optimization in the pattern matching yet (e.g. x!=x for Nan detection, x cmp constant, etc.) Change-Id: I0043564081d6dc0eede876c4a9eb3c33cbd1521c Reviewed-on: https://go-review.googlesource.com/13704 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-18 14:39:26 -04:00
}
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
// CombJump generates combinational instructions (2 at present) for a block jump,
// thereby the behaviour of non-standard condition codes could be simulated
func (s *SSAGenState) CombJump(b, next *ssa.Block, jumps *[2][2]IndexJump) {
[dev.ssa] cmd/compile: add FP comparison ops Basic ops, no particular optimization in the pattern matching yet (e.g. x!=x for Nan detection, x cmp constant, etc.) Change-Id: I0043564081d6dc0eede876c4a9eb3c33cbd1521c Reviewed-on: https://go-review.googlesource.com/13704 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-18 14:39:26 -04:00
switch next {
cmd/compile: enable constant-time CFG editing Provide indexes along with block pointers for Preds and Succs arrays. This allows us to splice edges in and out of those arrays in constant time. Fixes worst-case O(n^2) behavior in deadcode and fuse. benchmark old ns/op new ns/op delta BenchmarkFuse1-8 2065 2057 -0.39% BenchmarkFuse10-8 9408 9073 -3.56% BenchmarkFuse100-8 105238 76277 -27.52% BenchmarkFuse1000-8 3982562 1026750 -74.22% BenchmarkFuse10000-8 301220329 12824005 -95.74% BenchmarkDeadCode1-8 1588 1566 -1.39% BenchmarkDeadCode10-8 4333 4250 -1.92% BenchmarkDeadCode100-8 32031 32574 +1.70% BenchmarkDeadCode1000-8 590407 468275 -20.69% BenchmarkDeadCode10000-8 17822890 5000818 -71.94% BenchmarkDeadCode100000-8 1388706640 78021127 -94.38% BenchmarkDeadCode200000-8 5372518479 168598762 -96.86% Change-Id: Iccabdbb9343fd1c921ba07bbf673330a1c36ee17 Reviewed-on: https://go-review.googlesource.com/22589 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-04-28 16:52:47 -07:00
case b.Succs[0].Block():
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
s.oneJump(b, &jumps[0][0])
s.oneJump(b, &jumps[0][1])
cmd/compile: enable constant-time CFG editing Provide indexes along with block pointers for Preds and Succs arrays. This allows us to splice edges in and out of those arrays in constant time. Fixes worst-case O(n^2) behavior in deadcode and fuse. benchmark old ns/op new ns/op delta BenchmarkFuse1-8 2065 2057 -0.39% BenchmarkFuse10-8 9408 9073 -3.56% BenchmarkFuse100-8 105238 76277 -27.52% BenchmarkFuse1000-8 3982562 1026750 -74.22% BenchmarkFuse10000-8 301220329 12824005 -95.74% BenchmarkDeadCode1-8 1588 1566 -1.39% BenchmarkDeadCode10-8 4333 4250 -1.92% BenchmarkDeadCode100-8 32031 32574 +1.70% BenchmarkDeadCode1000-8 590407 468275 -20.69% BenchmarkDeadCode10000-8 17822890 5000818 -71.94% BenchmarkDeadCode100000-8 1388706640 78021127 -94.38% BenchmarkDeadCode200000-8 5372518479 168598762 -96.86% Change-Id: Iccabdbb9343fd1c921ba07bbf673330a1c36ee17 Reviewed-on: https://go-review.googlesource.com/22589 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-04-28 16:52:47 -07:00
case b.Succs[1].Block():
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
s.oneJump(b, &jumps[1][0])
s.oneJump(b, &jumps[1][1])
[dev.ssa] cmd/compile: add FP comparison ops Basic ops, no particular optimization in the pattern matching yet (e.g. x!=x for Nan detection, x cmp constant, etc.) Change-Id: I0043564081d6dc0eede876c4a9eb3c33cbd1521c Reviewed-on: https://go-review.googlesource.com/13704 Reviewed-by: Keith Randall <khr@golang.org>
2015-08-18 14:39:26 -04:00
default:
cmd/compile: fix incorrect rewriting to if condition Some ARM64 rewriting rules convert 'comparing to zero' conditions of if statements to a simplified version utilizing CMN and CMP instructions to branch over condition flags, in order to save one Add or Sub caculation. Such optimizations lead to wrong branching in case an overflow/underflow occurs when executing CMN or CMP. Fix the issue by introducing new block opcodes that don't honor the overflow/underflow flag, in the following categories: Block-Op Meaning ARM condition codes 1. LTnoov less than MI 2. GEnoov greater than or equal PL 3. LEnoov less than or equal MI || EQ 4. GTnoov greater than NEQ & PL The backend generates two consecutive branch instructions for 'LEnoov' and 'GTnoov' to model their expected behavior. A slight change to 'gc' and amd64/386 backends is made to unify the code generation. Add a test 'TestCondRewrite' as justification, it covers 32 incorrect rules identified on arm64, more might be needed on other arches, like 32-bit arm. Add two benchmarks profiling the aforementioned category 1&2 and category 3&4 separetely, we expect the first two categories will show performance improvement and the second will not result in visible regression compared with the non-optimized version. This change also updates TestFormats to support using %#x. Examples exhibiting where does the issue come from: 1: 'if x + 3 < 0' might be converted to: before: CMN $3, R0 BGE <else branch> // wrong branch is taken if 'x+3' overflows after: CMN $3, R0 BPL <else branch> 2: 'if y - 3 > 0' might be converted to: before: CMP $3, R0 BLE <else branch> // wrong branch is taken if 'y-3' underflows after: CMP $3, R0 BMI <else branch> BEQ <else branch> Benchmark data from different kinds of arm64 servers, 'old' is the non-optimized version (not the parent commit), generally the optimization version outperforms. S1: name old time/op new time/op delta CondRewrite/SoloJump 13.6ns ± 0% 12.9ns ± 0% -5.15% (p=0.000 n=10+10) CondRewrite/CombJump 13.8ns ± 1% 12.9ns ± 0% -6.32% (p=0.000 n=10+10) S2: name old time/op new time/op delta CondRewrite/SoloJump 11.6ns ± 0% 10.9ns ± 0% -6.03% (p=0.000 n=10+10) CondRewrite/CombJump 11.4ns ± 0% 10.8ns ± 1% -5.53% (p=0.000 n=10+10) S3: name old time/op new time/op delta CondRewrite/SoloJump 7.36ns ± 0% 7.50ns ± 0% +1.79% (p=0.000 n=9+10) CondRewrite/CombJump 7.35ns ± 0% 7.75ns ± 0% +5.51% (p=0.000 n=8+9) S4: name old time/op new time/op delta CondRewrite/SoloJump-224 11.5ns ± 1% 10.9ns ± 0% -4.97% (p=0.000 n=10+10) CondRewrite/CombJump-224 11.9ns ± 0% 11.5ns ± 0% -2.95% (p=0.000 n=10+10) S5: name old time/op new time/op delta CondRewrite/SoloJump 10.0ns ± 0% 10.0ns ± 0% -0.45% (p=0.000 n=9+10) CondRewrite/CombJump 9.93ns ± 0% 9.77ns ± 0% -1.53% (p=0.000 n=10+9) Go1 perf. data: name old time/op new time/op delta BinaryTree17 6.29s ± 1% 6.30s ± 1% ~ (p=1.000 n=5+5) Fannkuch11 5.40s ± 0% 5.40s ± 0% ~ (p=0.841 n=5+5) FmtFprintfEmpty 97.9ns ± 0% 98.9ns ± 3% ~ (p=0.937 n=4+5) FmtFprintfString 171ns ± 3% 171ns ± 2% ~ (p=0.754 n=5+5) FmtFprintfInt 212ns ± 0% 217ns ± 6% +2.55% (p=0.008 n=5+5) FmtFprintfIntInt 296ns ± 1% 297ns ± 2% ~ (p=0.516 n=5+5) FmtFprintfPrefixedInt 371ns ± 2% 374ns ± 7% ~ (p=1.000 n=5+5) FmtFprintfFloat 435ns ± 1% 439ns ± 2% ~ (p=0.056 n=5+5) FmtManyArgs 1.37µs ± 1% 1.36µs ± 1% ~ (p=0.730 n=5+5) GobDecode 14.6ms ± 4% 14.4ms ± 4% ~ (p=0.690 n=5+5) GobEncode 11.8ms ±20% 11.6ms ±15% ~ (p=1.000 n=5+5) Gzip 507ms ± 0% 491ms ± 0% -3.22% (p=0.008 n=5+5) Gunzip 73.8ms ± 0% 73.9ms ± 0% ~ (p=0.690 n=5+5) HTTPClientServer 116µs ± 0% 116µs ± 0% ~ (p=0.686 n=4+4) JSONEncode 21.8ms ± 1% 21.6ms ± 2% ~ (p=0.151 n=5+5) JSONDecode 104ms ± 1% 103ms ± 1% -1.08% (p=0.016 n=5+5) Mandelbrot200 9.53ms ± 0% 9.53ms ± 0% ~ (p=0.421 n=5+5) GoParse 7.55ms ± 1% 7.51ms ± 1% ~ (p=0.151 n=5+5) RegexpMatchEasy0_32 158ns ± 0% 158ns ± 0% ~ (all equal) RegexpMatchEasy0_1K 606ns ± 1% 608ns ± 3% ~ (p=0.937 n=5+5) RegexpMatchEasy1_32 143ns ± 0% 144ns ± 1% ~ (p=0.095 n=5+4) RegexpMatchEasy1_1K 927ns ± 2% 944ns ± 2% ~ (p=0.056 n=5+5) RegexpMatchMedium_32 16.0ns ± 0% 16.0ns ± 0% ~ (all equal) RegexpMatchMedium_1K 69.3µs ± 2% 69.7µs ± 0% ~ (p=0.690 n=5+5) RegexpMatchHard_32 3.73µs ± 0% 3.73µs ± 1% ~ (p=0.984 n=5+5) RegexpMatchHard_1K 111µs ± 1% 110µs ± 0% ~ (p=0.151 n=5+5) Revcomp 1.91s ±47% 1.77s ±68% ~ (p=1.000 n=5+5) Template 138ms ± 1% 138ms ± 1% ~ (p=1.000 n=5+5) TimeParse 787ns ± 2% 785ns ± 1% ~ (p=0.540 n=5+5) TimeFormat 729ns ± 1% 726ns ± 1% ~ (p=0.151 n=5+5) Updates #38740 Change-Id: I06c604874acdc1e63e66452dadee5df053045222 Reviewed-on: https://go-review.googlesource.com/c/go/+/233097 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Keith Randall <khr@golang.org>
2020-05-06 09:54:40 +00:00
var q *obj.Prog
if b.Likely != ssa.BranchUnlikely {
s.oneJump(b, &jumps[1][0])
s.oneJump(b, &jumps[1][1])
q = s.Br(obj.AJMP, b.Succs[1].Block())
} else {
s.oneJump(b, &jumps[0][0])
s.oneJump(b, &jumps[0][1])
q = s.Br(obj.AJMP, b.Succs[0].Block())
}
cmd/compile: better XPos for rematerialized values and JMPs This attempts to choose better values for values that are rematerialized (uses the XPos of the consumer, not the original) and for unconditional branches (uses the last assigned XPos in the block). The JMP branches seem to sometimes end up with a PC in the destination block, I think because of register movement or rematerialization that gets placed in predecessor blocks. This may be acceptable because (eyeball-empirically) that is often the line number of the target block, so the line number flow is correct. Added proper test, that checks both -N -l and regular compilation. The test is also capable (for gdb, delve soon) of tracking variable printing based on comments in the source code. There's substantial room for improvement in debugger behavior. Updates #21098. Change-Id: I13abd48a39141583b85576a015f561065819afd0 Reviewed-on: https://go-review.googlesource.com/50610 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-07-21 12:00:38 -04:00
q.Pos = b.Pos
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// AddAux adds the offset in the aux fields (AuxInt and Aux) of v to a.
func AddAux(a *obj.Addr, v *ssa.Value) {
AddAux2(a, v, v.AuxInt)
[dev.ssa] cmd/compile: introduce storeconst ops Introduce opcodes that store a constant value. AuxInt now needs to hold both the value to be stored and the constant offset at which to store it. Introduce a StoreConst type to help encode/decode these parts to/from an AuxInt. Change-Id: I1631883abe035cff4b16368683e1eb3d2ccb674d Reviewed-on: https://go-review.googlesource.com/16170 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-10-21 13:13:56 -07:00
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
func AddAux2(a *obj.Addr, v *ssa.Value, offset int64) {
[dev.ssa] cmd/compile: handle symbolic constant for SSA on ARM Progress on SSA backend for ARM. Still not complete. Now "helloworld" function compiles and runs. Updates #15365. Change-Id: I02f66983cefdf07a6aed262fb4af8add464d8e9a Reviewed-on: https://go-review.googlesource.com/22854 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-06 10:11:41 -07:00
if a.Type != obj.TYPE_MEM && a.Type != obj.TYPE_ADDR {
cmd/compile: make vet happy with ssa code Fixes #15488 Change-Id: I054eb1e1c859de315e3cdbdef5428682bce693fd Reviewed-on: https://go-review.googlesource.com/22609 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-04-29 09:02:27 -07:00
v.Fatalf("bad AddAux addr %v", a)
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
}
// add integer offset
[dev.ssa] cmd/compile: introduce storeconst ops Introduce opcodes that store a constant value. AuxInt now needs to hold both the value to be stored and the constant offset at which to store it. Introduce a StoreConst type to help encode/decode these parts to/from an AuxInt. Change-Id: I1631883abe035cff4b16368683e1eb3d2ccb674d Reviewed-on: https://go-review.googlesource.com/16170 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-10-21 13:13:56 -07:00
a.Offset += offset
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
// If no additional symbol offset, we're done.
if v.Aux == nil {
return
}
// Add symbol's offset from its base register.
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
switch n := v.Aux.(type) {
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
case *ssa.AuxCall:
a.Name = obj.NAME_EXTERN
a.Sym = n.Fn
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
case *obj.LSym:
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
a.Name = obj.NAME_EXTERN
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
a.Sym = n
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
case ir.Node:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.PPARAM || n.Class() == ir.PPARAMOUT {
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
a.Name = obj.NAME_PARAM
[dev.regabi] cmd/compile: remove Orig, SetOrig from Node interface These are only needed for a few opcodes, and we can avoid wasting storage in every implementation by using the extension interface pattern with a helper function for access. Of course, in the current codebase, there is only one Node implementation (*node) and it has these methods, so there is no danger of a functional change in this particular CL. Passes buildall w/ toolstash -cmp. Change-Id: I440c6c232f1fe7b56b852a00dc530f8f49a6b12d Reviewed-on: https://go-review.googlesource.com/c/go/+/274089 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-28 00:36:44 -05:00
a.Sym = ir.Orig(n).Sym().Linksym()
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Offset += n.Offset()
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
break
}
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
a.Name = obj.NAME_AUTO
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Sym = n.Sym().Linksym()
a.Offset += n.Offset()
[dev.ssa] cmd/compile/internal/ssa: Handle variables correctly Use *Node of type ONAME instead of string as the key for variable maps. This will prevent aliasing between two identically named but differently scoped variables. Introduce an Aux value that encodes the offset of a variable from a base pointer (either global base pointer or stack pointer). Allow LEAQ and derivatives (MOVQ, etc.) to also have such an Aux field. Allocate space for AUTO variables in stackalloc. Change-Id: Ibdccdaea4bbc63a1f4882959ac374f2b467e3acd Reviewed-on: https://go-review.googlesource.com/11238 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-06-19 21:02:28 -07:00
default:
v.Fatalf("aux in %s not implemented %#v", v, v.Aux)
}
}
[dev.ssa] cmd/compile: Do pointer arithmetic with int, not uintptr Be more consistent about this. There's no reason to do the pointer arithmetic on a different type, as sizeof(int) >= sizeof(ptr) on all of our platforms. It simplifies our rewrite rules also, except for a few that need duplication. Add some more constant folding to get constant indexing and slicing to fold down to nothing. Change-Id: I3e56cdb14b3dc1a6a0514f0333e883f92c19e3c7 Reviewed-on: https://go-review.googlesource.com/16586 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 21:28:13 -08:00
// extendIndex extends v to a full int width.
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// panic with the given kind if v does not fit in an int (only on 32-bit archs).
func (s *state) extendIndex(idx, len *ssa.Value, kind ssa.BoundsKind, bounded bool) *ssa.Value {
size := idx.Type.Size()
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if size == s.config.PtrSize {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
return idx
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
if size > s.config.PtrSize {
[dev.ssa] cmd/compile: handle Div, Convert, GetClosurePtr etc. on ARM This CL adds support of Div, Mod, Convert, GetClosurePtr and 64-bit indexing support to SSA backend for ARM. Add tests for 64-bit indexing to cmd/compile/internal/gc/testdata/string_ssa.go. Tests cmd/compile/internal/gc/testdata/*_ssa.go passed, except compound_ssa.go and fp_ssa.go. Progress on SSA for ARM. Still not complete. Essentially the only unsupported part is floating point. Updates #15365. Change-Id: I269e88b67f641c25e7a813d910c96d356d236bff Reviewed-on: https://go-review.googlesource.com/23542 Reviewed-by: David Chase <drchase@google.com>
2016-05-25 09:49:28 -04:00
// truncate 64-bit indexes on 32-bit pointer archs. Test the
// high word and branch to out-of-bounds failure if it is not 0.
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
var lo *ssa.Value
if idx.Type.IsSigned() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
lo = s.newValue1(ssa.OpInt64Lo, types.Types[types.TINT], idx)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
lo = s.newValue1(ssa.OpInt64Lo, types.Types[types.TUINT], idx)
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
if bounded || base.Flag.B != 0 {
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
return lo
}
bNext := s.f.NewBlock(ssa.BlockPlain)
bPanic := s.f.NewBlock(ssa.BlockExit)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
hi := s.newValue1(ssa.OpInt64Hi, types.Types[types.TUINT32], idx)
cmp := s.newValue2(ssa.OpEq32, types.Types[types.TBOOL], hi, s.constInt32(types.Types[types.TUINT32], 0))
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
if !idx.Type.IsSigned() {
switch kind {
case ssa.BoundsIndex:
kind = ssa.BoundsIndexU
case ssa.BoundsSliceAlen:
kind = ssa.BoundsSliceAlenU
case ssa.BoundsSliceAcap:
kind = ssa.BoundsSliceAcapU
case ssa.BoundsSliceB:
kind = ssa.BoundsSliceBU
case ssa.BoundsSlice3Alen:
kind = ssa.BoundsSlice3AlenU
case ssa.BoundsSlice3Acap:
kind = ssa.BoundsSlice3AcapU
case ssa.BoundsSlice3B:
kind = ssa.BoundsSlice3BU
case ssa.BoundsSlice3C:
kind = ssa.BoundsSlice3CU
}
[dev.ssa] cmd/compile: handle Div, Convert, GetClosurePtr etc. on ARM This CL adds support of Div, Mod, Convert, GetClosurePtr and 64-bit indexing support to SSA backend for ARM. Add tests for 64-bit indexing to cmd/compile/internal/gc/testdata/string_ssa.go. Tests cmd/compile/internal/gc/testdata/*_ssa.go passed, except compound_ssa.go and fp_ssa.go. Progress on SSA for ARM. Still not complete. Essentially the only unsupported part is floating point. Updates #15365. Change-Id: I269e88b67f641c25e7a813d910c96d356d236bff Reviewed-on: https://go-review.googlesource.com/23542 Reviewed-by: David Chase <drchase@google.com>
2016-05-25 09:49:28 -04:00
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
b := s.endBlock()
b.Kind = ssa.BlockIf
b.SetControl(cmp)
b.Likely = ssa.BranchLikely
b.AddEdgeTo(bNext)
b.AddEdgeTo(bPanic)
s.startBlock(bPanic)
mem := s.newValue4I(ssa.OpPanicExtend, types.TypeMem, int64(kind), hi, lo, len, s.mem())
s.endBlock().SetControl(mem)
s.startBlock(bNext)
return lo
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
// Extend value to the required size
var op ssa.Op
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
if idx.Type.IsSigned() {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
switch 10*size + s.config.PtrSize {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
case 14:
op = ssa.OpSignExt8to32
case 18:
op = ssa.OpSignExt8to64
case 24:
op = ssa.OpSignExt16to32
case 28:
op = ssa.OpSignExt16to64
case 48:
op = ssa.OpSignExt32to64
default:
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.Fatalf("bad signed index extension %s", idx.Type)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
} else {
cmd: remove IntSize and Widthint Use PtrSize and Widthptr instead. CL prepared mostly with sed and uniq. Passes toolstash-check -all. Fixes #19954. Change-Id: I09371bd7128672885cb8bc4e7f534ad56a88d755 Reviewed-on: https://go-review.googlesource.com/40506 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-04-21 18:44:34 -07:00
switch 10*size + s.config.PtrSize {
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
case 14:
op = ssa.OpZeroExt8to32
case 18:
op = ssa.OpZeroExt8to64
case 24:
op = ssa.OpZeroExt16to32
case 28:
op = ssa.OpZeroExt16to64
case 48:
op = ssa.OpZeroExt32to64
default:
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
s.Fatalf("bad unsigned index extension %s", idx.Type)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return s.newValue1(op, types.Types[types.TINT], idx)
[dev.ssa] cmd/compile/internal/ssa: redo how sign extension is handled For integer types less than a machine register, we have to decide what the invariants are for the high bits of the register. We used to set the high bits to the correct extension (sign or zero, as determined by the type) of the low bits. This CL makes the compiler ignore the high bits of the register altogether (they are junk). On this plus side, this means ops that generate subword results don't have to worry about correctly extending them. On the minus side, ops that consume subword arguments have to deal with the input registers not being correctly extended. For x86, this tradeoff is probably worth it. Almost all opcodes have versions that use only the correct subword piece of their inputs. (The one big exception is array indexing.) Not many opcodes can correctly sign extend on output. For other architectures, the tradeoff is probably not so clear, as they don't have many subword-safe opcodes (e.g. 16-bit compare, ignoring the high 16/48 bits). Fortunately we can decide whether we do this per-architecture. For the machine-independent opcodes, we pretend that the "register" size is equal to the type width, so sign extension is immaterial. Opcodes that care about the signedness of the input (e.g. compare, right shift) have two different variants. Change-Id: I465484c5734545ee697afe83bc8bf4b53bd9df8d Reviewed-on: https://go-review.googlesource.com/12600 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-07-23 14:35:02 -07:00
}
[dev.ssa] cmd/compile: refactor out CheckLoweredPhi This will be used verbatim in other architectures. Change-Id: I307891ae597d797fd45f296b6a38ffe9fac6b975 Reviewed-on: https://go-review.googlesource.com/24155 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-06-15 15:26:47 -07:00
// CheckLoweredPhi checks that regalloc and stackalloc correctly handled phi values.
// Called during ssaGenValue.
func CheckLoweredPhi(v *ssa.Value) {
if v.Op != ssa.OpPhi {
v.Fatalf("CheckLoweredPhi called with non-phi value: %v", v.LongString())
}
if v.Type.IsMemory() {
return
}
f := v.Block.Func
loc := f.RegAlloc[v.ID]
for _, a := range v.Args {
if aloc := f.RegAlloc[a.ID]; aloc != loc { // TODO: .Equal() instead?
cmd/compile: rename SSA Register.Name to Register.String Just to get rid of lots of .Name() stutter in printf calls. Change-Id: I86cf00b3f7b2172387a1c6a7f189c1897fab6300 Reviewed-on: https://go-review.googlesource.com/56630 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-08-17 12:23:34 -07:00
v.Fatalf("phi arg at different location than phi: %v @ %s, but arg %v @ %s\n%s\n", v, loc, a, aloc, v.Block.Func)
[dev.ssa] cmd/compile: refactor out CheckLoweredPhi This will be used verbatim in other architectures. Change-Id: I307891ae597d797fd45f296b6a38ffe9fac6b975 Reviewed-on: https://go-review.googlesource.com/24155 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-06-15 15:26:47 -07:00
}
}
}
[dev.ssa] cmd/compile: unify and check LoweredGetClosurePtr The comments were mostly duplicated; unify them. Add a check that the required invariant holds. Change-Id: I42fe09dcd1fac76d3c4e191f7a58c591c5ce429b Reviewed-on: https://go-review.googlesource.com/24719 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2016-07-03 13:40:03 -07:00
// CheckLoweredGetClosurePtr checks that v is the first instruction in the function's entry block.
// The output of LoweredGetClosurePtr is generally hardwired to the correct register.
// That register contains the closure pointer on closure entry.
func CheckLoweredGetClosurePtr(v *ssa.Value) {
entry := v.Block.Func.Entry
if entry != v.Block || entry.Values[0] != v {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("in %s, badly placed LoweredGetClosurePtr: %v %v", v.Block.Func.Name, v.Block, v)
[dev.ssa] cmd/compile: unify and check LoweredGetClosurePtr The comments were mostly duplicated; unify them. Add a check that the required invariant holds. Change-Id: I42fe09dcd1fac76d3c4e191f7a58c591c5ce429b Reviewed-on: https://go-review.googlesource.com/24719 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: David Chase <drchase@google.com>
2016-07-03 13:40:03 -07:00
}
}
cmd/compile: remove amd64 code from package gc and the core gen tool Parts of the SSA compiler in package gc contain amd64-specific code, most notably Prog generation. Move this code into package amd64, so that other architectures can be added more easily. In package gc, this change is just moving code. There are no functional changes or even any larger structural changes beyond changing function names (mostly for export). In the cmd/compile/internal/ssa/gen tool, more information is included in arch to remove the AMD64-specific behavior in the main portion of the tool. The generated opGen.go is identical. Change-Id: I8eb37c6e6df6de1b65fa7dab6f3bc32c29daf643 Reviewed-on: https://go-review.googlesource.com/20609 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Michael Pratt <mpratt@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-12 14:07:40 -08:00
// AutoVar returns a *Node and int64 representing the auto variable and offset within it
[dev.ssa] cmd/compile: start arguments as spilled Declare a function's arguments as having already been spilled so their use just requires a restore. Allow spill locations to be portions of larger objects the stack. Required to load portions of compound input arguments. Rename the memory input to InputMem. Use Arg for the pre-spilled argument values. Change-Id: I8fe2a03ffbba1022d98bfae2052b376b96d32dda Reviewed-on: https://go-review.googlesource.com/16536 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 08:10:26 -08:00
// where v should be spilled.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func AutoVar(v *ssa.Value) (ir.Node, int64) {
[dev.ssa] cmd/compile: start arguments as spilled Declare a function's arguments as having already been spilled so their use just requires a restore. Allow spill locations to be portions of larger objects the stack. Required to load portions of compound input arguments. Rename the memory input to InputMem. Use Arg for the pre-spilled argument values. Change-Id: I8fe2a03ffbba1022d98bfae2052b376b96d32dda Reviewed-on: https://go-review.googlesource.com/16536 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-11-02 08:10:26 -08:00
loc := v.Block.Func.RegAlloc[v.ID].(ssa.LocalSlot)
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
if v.Type.Size() > loc.Type.Size() {
[dev.ssa] cmd/compile: fix spill sizes In code that does: var x, z int32 var y int64 z = phi(x, int32(y)) We silently drop the int32 cast because truncation is a no-op. The phi operation needs to make sure it uses the size of the phi, not the size of its arguments, when generating spills. Change-Id: I1f7baf44f019256977a46fdd3dad1972be209042 Reviewed-on: https://go-review.googlesource.com/18390 Reviewed-by: David Chase <drchase@google.com>
2016-01-04 13:34:54 -08:00
v.Fatalf("spill/restore type %s doesn't fit in slot type %s", v.Type, loc.Type)
}
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
return loc.N, loc.Off
[dev.ssa] cmd/internal/gc: Generate code from ssa form After the ssa compiler finishes, extract a cmd/internal/obj program from the result. Can compile and run iterative Fibonacci. The code is awful, but it runs. Change-Id: I19fa27ffe69863950a8cb594f33a5e9a671a7663 Reviewed-on: https://go-review.googlesource.com/9971 Reviewed-by: Russ Cox <rsc@golang.org>
2015-05-12 11:06:44 -07:00
}
[dev.ssa] cmd/internal/ssa: add string operations Add ops to load, store, select ptr & len, and build constant strings. A few other minor cleanups. Change-Id: I6f0f7419d641b119b613ed44561cd308a466051c Reviewed-on: https://go-review.googlesource.com/10449 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-05-27 14:52:22 -07:00
cmd/compile: layout stack frame during SSA Identify live stack variables during SSA and compute the stack frame layout earlier so that we can emit instructions with the correct offsets upfront. Passes toolstash/buildall. Change-Id: I191100dba274f1e364a15bdcfdc1d1466cdd1db5 Reviewed-on: https://go-review.googlesource.com/30216 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-03 12:26:25 -07:00
func AddrAuto(a *obj.Addr, v *ssa.Value) {
n, off := AutoVar(v)
a.Type = obj.TYPE_MEM
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Sym = n.Sym().Linksym()
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
a.Reg = int16(thearch.REGSP)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Offset = n.Offset() + off
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
if n.Class() == ir.PPARAM || n.Class() == ir.PPARAMOUT {
cmd/compile: layout stack frame during SSA Identify live stack variables during SSA and compute the stack frame layout earlier so that we can emit instructions with the correct offsets upfront. Passes toolstash/buildall. Change-Id: I191100dba274f1e364a15bdcfdc1d1466cdd1db5 Reviewed-on: https://go-review.googlesource.com/30216 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-03 12:26:25 -07:00
a.Name = obj.NAME_PARAM
} else {
a.Name = obj.NAME_AUTO
}
}
func (s *SSAGenState) AddrScratch(a *obj.Addr) {
cmd/compile/internal/ssa: add Op.UsesScratch method Passes toolstash/buildall. Change-Id: I928a2ef39fb10091957f35bb3f1564498f6f1b83 Reviewed-on: https://go-review.googlesource.com/30312 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-04 13:00:21 -07:00
if s.ScratchFpMem == nil {
panic("no scratch memory available; forgot to declare usesScratch for Op?")
}
cmd/compile: layout stack frame during SSA Identify live stack variables during SSA and compute the stack frame layout earlier so that we can emit instructions with the correct offsets upfront. Passes toolstash/buildall. Change-Id: I191100dba274f1e364a15bdcfdc1d1466cdd1db5 Reviewed-on: https://go-review.googlesource.com/30216 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-03 12:26:25 -07:00
a.Type = obj.TYPE_MEM
a.Name = obj.NAME_AUTO
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Sym = s.ScratchFpMem.Sym().Linksym()
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
a.Reg = int16(thearch.REGSP)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
a.Offset = s.ScratchFpMem.Offset()
cmd/compile: layout stack frame during SSA Identify live stack variables during SSA and compute the stack frame layout earlier so that we can emit instructions with the correct offsets upfront. Passes toolstash/buildall. Change-Id: I191100dba274f1e364a15bdcfdc1d1466cdd1db5 Reviewed-on: https://go-review.googlesource.com/30216 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-03 12:26:25 -07:00
}
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
// Call returns a new CALL instruction for the SSA value v.
// It uses PrepareCall to prepare the call.
cmd/compile/internal/gc: refactor ACALL Prog creation This abstracts creation of ACALL Progs into package gc. The main benefit of this today is we can refactor away a lot of common boilerplate code. Later, once liveness analysis happens on the SSA graph, this will also provide an easy insertion point for emitting the PCDATA Progs immediately before call instructions. Passes toolstash-check -all. Change-Id: Ia15108ace97201cd84314f1ca916dfeb4f09d61c Reviewed-on: https://go-review.googlesource.com/38081 Reviewed-by: Keith Randall <khr@golang.org>
2017-03-10 18:34:41 -08:00
func (s *SSAGenState) Call(v *ssa.Value) *obj.Prog {
cmd/compile: remove statement marks from secondary calls Calls are code-generated in an alternate path that inherits its positions from values, not from *SSAGenState. The default position on *SSAGenState was marked as not-a-statement, but this was not applied to the value itself, leading to spurious "is statement" marks in the output (convention: after code generation in the compiler, everything is either definitely a statement or definitely not a statement, nothing is in the undetermined state). This CL causes a 35 statement regression in ssa/stmtlines_test. This is down from the earlier 150 because of all the other CLs preceding this one that deal with the root causes of the missing lines (repeated lines on nested calls hid missing lines). This also removes some line repeats from ssa/debug_test. Change-Id: Ie9a507bd5447e906b35bbd098e3295211df2ae01 Reviewed-on: https://go-review.googlesource.com/c/go/+/188018 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Jeremy Faller <jeremy@golang.org>
2019-07-29 16:23:31 -04:00
pPosIsStmt := s.pp.pos.IsStmt() // The statement-ness fo the call comes from ssaGenState
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
s.PrepareCall(v)
p := s.Prog(obj.ACALL)
cmd/compile: remove statement marks from secondary calls Calls are code-generated in an alternate path that inherits its positions from values, not from *SSAGenState. The default position on *SSAGenState was marked as not-a-statement, but this was not applied to the value itself, leading to spurious "is statement" marks in the output (convention: after code generation in the compiler, everything is either definitely a statement or definitely not a statement, nothing is in the undetermined state). This CL causes a 35 statement regression in ssa/stmtlines_test. This is down from the earlier 150 because of all the other CLs preceding this one that deal with the root causes of the missing lines (repeated lines on nested calls hid missing lines). This also removes some line repeats from ssa/debug_test. Change-Id: Ie9a507bd5447e906b35bbd098e3295211df2ae01 Reviewed-on: https://go-review.googlesource.com/c/go/+/188018 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Jeremy Faller <jeremy@golang.org>
2019-07-29 16:23:31 -04:00
if pPosIsStmt == src.PosIsStmt {
p.Pos = v.Pos.WithIsStmt()
} else {
p.Pos = v.Pos.WithNotStmt()
}
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
if sym, ok := v.Aux.(*ssa.AuxCall); ok && sym.Fn != nil {
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
p.To.Type = obj.TYPE_MEM
p.To.Name = obj.NAME_EXTERN
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
p.To.Sym = sym.Fn
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
} else {
// TODO(mdempsky): Can these differences be eliminated?
switch thearch.LinkArch.Family {
cmd/compile: implement compiler for riscv64 Based on riscv-go port. Updates #27532 Change-Id: Ia329daa243db63ff334053b8807ea96b97ce3acf Reviewed-on: https://go-review.googlesource.com/c/go/+/204631 Run-TryBot: Joel Sing <joel@sing.id.au> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-11-04 04:40:47 +11:00
case sys.AMD64, sys.I386, sys.PPC64, sys.RISCV64, sys.S390X, sys.Wasm:
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
p.To.Type = obj.TYPE_REG
case sys.ARM, sys.ARM64, sys.MIPS, sys.MIPS64:
p.To.Type = obj.TYPE_MEM
default:
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("unknown indirect call family")
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
}
p.To.Reg = v.Args[0].Reg()
}
return p
}
// PrepareCall prepares to emit a CALL instruction for v and does call-related bookkeeping.
// It must be called immediately before emitting the actual CALL instruction,
// since it emits PCDATA for the stack map at the call (calls are safe points).
func (s *SSAGenState) PrepareCall(v *ssa.Value) {
cmd/compile: introduce LivenessMap and LivenessIndex Currently liveness only produces a stack map index at each safe point, so the information is summarized in a map[*ssa.Value]int. We're about to have both a stack map index and a register map index, so replace the int with a LivenessIndex type we can extend, and replace the map with a LivenessMap that we can also change more easily in the future. This also gives us an easy hook for defining the value that means "not a safe point". Passes toolstash -cmp. For #24543. Change-Id: Ic4c069839635efed4fd0f603899b80f8be3b56ec Reviewed-on: https://go-review.googlesource.com/109347 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2018-03-22 12:04:51 -04:00
idx := s.livenessMap.Get(v)
cmd/compile: fix unsafe-points with stack maps The compiler currently conflates whether a Value has a stack map with whether it's an unsafe point. For the most part, unsafe-points don't have stack maps, so this is mostly fine, but call instructions can be both an unsafe-point *and* have a stack map. For example, none of the instructions in a nosplit function should be preemptible, but calls must still have stack maps in case the called function grows the stack or get preempted. Currently, the compiler can't distinguish this case, so calls in nosplit functions are marked as safe-points just because they have stack maps. This is particularly problematic if a nosplit function calls another nosplit function, since this can introduce a preemption point where there should be none. We realized this was a problem for split-stack prologues a while back, and CL 207349 changed the encoding of unsafe-points to use the register map index instead of the stack map index so we could record both a stack map and an unsafe-point at the same instruction. But this was never extended into the compiler. This CL fixes this problem in the compiler. We make LivenessIndex slightly more abstract by separating unsafe-point marks from stack and register map indexes. We map this to the PCDATA encoding later when producing Progs. This isn't enough to fix the whole problem for nosplit functions, because obj still adds prologues and marks those as preemptible, but it's a step in the right direction. I checked this CL by comparing maps before and after this change in the runtime and net/http. In net/http, unsafe-points match exactly; at anything that isn't an unsafe-point, both the stack and register maps are unchanged by this CL. In the runtime, at every point that was a safe-point before this change, the stack maps agree (and mostly the runtime doesn't have register maps at all now). In both, all CALLs (except write barrier calls) have stack maps. For #36365. Change-Id: I066628938b02e78be5c81a6614295bcf7cc566c2 Reviewed-on: https://go-review.googlesource.com/c/go/+/230541 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-04-21 14:23:04 -04:00
if !idx.StackMapValid() {
cmd/compile: don't emit stack maps for write barrier calls These are necessarily deeply non-preemptible, so there's no point in emitting stack maps for them. We already mark them as unsafe points, so this only affects the runtime, since user code does not emit stack maps at unsafe points. SSAGenState.PrepareCall also excludes them when it's sanity checking call stack maps. Right now this only drops a handful of unnecessary stack maps from the runtime, but we're about to start emitting stack maps only at calls for user code, too. At that point, this will matter much more. For #36365. Change-Id: Ib3abfedfddc8e724d933a064fa4d573500627990 Reviewed-on: https://go-review.googlesource.com/c/go/+/230542 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-04-27 20:42:00 -04:00
// See Liveness.hasStackMap.
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
if sym, ok := v.Aux.(*ssa.AuxCall); !ok || !(sym.Fn == typedmemclr || sym.Fn == typedmemmove) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("missing stack map index for %v", v.LongString())
cmd/compile: enable stack maps everywhere except unsafe points This modifies issafepoint in liveness analysis to report almost every operation as a safe point. There are four things we don't mark as safe-points: 1. Runtime code (other than at calls). 2. go:nosplit functions (other than at calls). 3. Instructions between the load of the write barrier-enabled flag and the write. 4. Instructions leading up to a uintptr -> unsafe.Pointer conversion. We'll optimize this in later CLs: name old time/op new time/op delta Template 185ms ± 2% 190ms ± 2% +2.95% (p=0.000 n=10+10) Unicode 96.3ms ± 3% 96.4ms ± 1% ~ (p=0.905 n=10+9) GoTypes 658ms ± 0% 669ms ± 1% +1.72% (p=0.000 n=10+9) Compiler 3.14s ± 1% 3.18s ± 1% +1.56% (p=0.000 n=9+10) SSA 7.41s ± 2% 7.59s ± 1% +2.48% (p=0.000 n=9+10) Flate 126ms ± 1% 128ms ± 1% +2.08% (p=0.000 n=10+10) GoParser 153ms ± 1% 157ms ± 2% +2.38% (p=0.000 n=10+10) Reflect 437ms ± 1% 442ms ± 1% +0.98% (p=0.001 n=10+10) Tar 178ms ± 1% 179ms ± 1% +0.67% (p=0.035 n=10+9) XML 223ms ± 1% 229ms ± 1% +2.58% (p=0.000 n=10+10) [Geo mean] 394ms 401ms +1.75% No effect on binary size because we're not yet emitting these extra safe points. For #24543. Change-Id: I16a1eebb9183cad7cef9d53c0fd21a973cad6859 Reviewed-on: https://go-review.googlesource.com/109348 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2018-02-26 20:48:53 -05:00
}
cmd/compile: port liveness analysis to SSA Passes toolstash-check -all. Change-Id: I92c3c25d6c053f971f346f4fa3bbc76419b58183 Reviewed-on: https://go-review.googlesource.com/38087 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-03-09 18:32:17 -08:00
}
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
call, ok := v.Aux.(*ssa.AuxCall)
if ok && call.Fn == Deferreturn {
cmd/compile/internal/gc: refactor ACALL Prog creation This abstracts creation of ACALL Progs into package gc. The main benefit of this today is we can refactor away a lot of common boilerplate code. Later, once liveness analysis happens on the SSA graph, this will also provide an easy insertion point for emitting the PCDATA Progs immediately before call instructions. Passes toolstash-check -all. Change-Id: Ia15108ace97201cd84314f1ca916dfeb4f09d61c Reviewed-on: https://go-review.googlesource.com/38081 Reviewed-by: Keith Randall <khr@golang.org>
2017-03-10 18:34:41 -08:00
// Deferred calls will appear to be returning to
// the CALL deferreturn(SB) that we are about to emit.
// However, the stack trace code will show the line
// of the instruction byte before the return PC.
// To avoid that being an unrelated instruction,
// insert an actual hardware NOP that will have the right line number.
// This is different from obj.ANOP, which is a virtual no-op
// that doesn't make it into the instruction stream.
cmd/compile: call ginsnop, not ginsnop2 on ppc64le for mid-stack inlining tracebacks A recent change to fix stacktraces for inlined functions introduced a regression on ppc64le when compiling position independent code. That happened because ginsnop2 was called for the purpose of inserting a NOP to identify the location of the inlined function, when ginsnop should have been used. ginsnop2 is intended to be used before deferreturn to ensure r2 is properly restored when compiling position independent code. In some cases the location where r2 is loaded from might not be initialized. If that happens and r2 is used to generate an address, the result is likely a SEGV. This fixes that problem. Fixes #30283 Change-Id: If70ef27fc65ef31969712422306ac3a57adbd5b6 Reviewed-on: https://go-review.googlesource.com/c/163337 Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: Carlos Eduardo Seo <cseo@linux.vnet.ibm.com> Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Andrew Bonventre <andybons@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2019-02-21 14:48:52 -05:00
thearch.Ginsnopdefer(s.pp)
cmd/compile/internal/gc: refactor ACALL Prog creation This abstracts creation of ACALL Progs into package gc. The main benefit of this today is we can refactor away a lot of common boilerplate code. Later, once liveness analysis happens on the SSA graph, this will also provide an easy insertion point for emitting the PCDATA Progs immediately before call instructions. Passes toolstash-check -all. Change-Id: Ia15108ace97201cd84314f1ca916dfeb4f09d61c Reviewed-on: https://go-review.googlesource.com/38081 Reviewed-by: Keith Randall <khr@golang.org>
2017-03-10 18:34:41 -08:00
}
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
if ok {
cmd/compile: improve coverage of nowritebarrierrec check The current go:nowritebarrierrec checker has two problems that limit its coverage: 1. It doesn't understand that systemstack calls its argument, which means there are several cases where we fail to detect prohibited write barriers. 2. It only observes calls in the AST, so calls constructed during lowering by SSA aren't followed. This CL completely rewrites this checker to address these issues. The current checker runs entirely after walk and uses visitBottomUp, which introduces several problems for checking across systemstack. First, visitBottomUp itself doesn't understand systemstack calls, so the callee may be ordered after the caller, causing the checker to fail to propagate constraints. Second, many systemstack calls are passed a closure, which is quite difficult to resolve back to the function definition after transformclosure and walk have run. Third, visitBottomUp works exclusively on the AST, so it can't observe calls created by SSA. To address these problems, this commit splits the check into two phases and rewrites it to use a call graph generated during SSA lowering. The first phase runs before transformclosure/walk and simply records systemstack arguments when they're easy to get. Then, it modifies genssa to record static call edges at the point where we're lowering to Progs (which is the latest point at which position information is conveniently available). Finally, the second phase runs after all functions have been lowered and uses a direct BFS walk of the call graph (combining systemstack calls with static calls) to find prohibited write barriers and construct nice error messages. Fixes #22384. For #22460. Change-Id: I39668f7f2366ab3c1ab1a71eaf25484d25349540 Reviewed-on: https://go-review.googlesource.com/72773 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-22 16:36:27 -04:00
// Record call graph information for nowritebarrierrec
// analysis.
if nowritebarrierrecCheck != nil {
cmd/compile: introduce special ssa Aux type for calls This is prerequisite to moving call expansion later into SSA, and probably a good idea anyway. Passes tests. This is the first minimal CL that does a 1-for-1 substitution of *ssa.AuxCall for *obj.LSym. Next step (next CL) is to make this change for all calls so that additional information can be stored in AuxCall. Change-Id: Ia3a7715648fd9fb1a176850767a726e6f5b959eb Reviewed-on: https://go-review.googlesource.com/c/go/+/237680 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-06-12 13:48:26 -04:00
nowritebarrierrecCheck.recordCall(s.pp.curfn, call.Fn, v.Pos)
cmd/compile: improve coverage of nowritebarrierrec check The current go:nowritebarrierrec checker has two problems that limit its coverage: 1. It doesn't understand that systemstack calls its argument, which means there are several cases where we fail to detect prohibited write barriers. 2. It only observes calls in the AST, so calls constructed during lowering by SSA aren't followed. This CL completely rewrites this checker to address these issues. The current checker runs entirely after walk and uses visitBottomUp, which introduces several problems for checking across systemstack. First, visitBottomUp itself doesn't understand systemstack calls, so the callee may be ordered after the caller, causing the checker to fail to propagate constraints. Second, many systemstack calls are passed a closure, which is quite difficult to resolve back to the function definition after transformclosure and walk have run. Third, visitBottomUp works exclusively on the AST, so it can't observe calls created by SSA. To address these problems, this commit splits the check into two phases and rewrites it to use a call graph generated during SSA lowering. The first phase runs before transformclosure/walk and simply records systemstack arguments when they're easy to get. Then, it modifies genssa to record static call edges at the point where we're lowering to Progs (which is the latest point at which position information is conveniently available). Finally, the second phase runs after all functions have been lowered and uses a direct BFS walk of the call graph (combining systemstack calls with static calls) to find prohibited write barriers and construct nice error messages. Fixes #22384. For #22460. Change-Id: I39668f7f2366ab3c1ab1a71eaf25484d25349540 Reviewed-on: https://go-review.googlesource.com/72773 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-22 16:36:27 -04:00
}
cmd/compile/internal/gc: refactor ACALL Prog creation This abstracts creation of ACALL Progs into package gc. The main benefit of this today is we can refactor away a lot of common boilerplate code. Later, once liveness analysis happens on the SSA graph, this will also provide an easy insertion point for emitting the PCDATA Progs immediately before call instructions. Passes toolstash-check -all. Change-Id: Ia15108ace97201cd84314f1ca916dfeb4f09d61c Reviewed-on: https://go-review.googlesource.com/38081 Reviewed-by: Keith Randall <khr@golang.org>
2017-03-10 18:34:41 -08:00
}
cmd/compile/internal/gc: factor out beginning of SSAGenState.Call This commit does not change the semantics of the Call method. Its purpose is to avoid duplication of code by making PrepareCall available for separate use by the wasm backend. Updates #18892 Change-Id: I04a3098f56ebf0d995791c5375dd4c03b6a202a3 Reviewed-on: https://go-review.googlesource.com/103275 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-03-29 00:53:26 +02:00
cmd/compile: make Maxarg local Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: I1294058716d83dd1be495d399ed7ab2277754dc6 Reviewed-on: https://go-review.googlesource.com/38329 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 08:58:36 -07:00
if s.maxarg < v.AuxInt {
s.maxarg = v.AuxInt
cmd/compile/internal/gc: refactor ACALL Prog creation This abstracts creation of ACALL Progs into package gc. The main benefit of this today is we can refactor away a lot of common boilerplate code. Later, once liveness analysis happens on the SSA graph, this will also provide an easy insertion point for emitting the PCDATA Progs immediately before call instructions. Passes toolstash-check -all. Change-Id: Ia15108ace97201cd84314f1ca916dfeb4f09d61c Reviewed-on: https://go-review.googlesource.com/38081 Reviewed-by: Keith Randall <khr@golang.org>
2017-03-10 18:34:41 -08:00
}
}
cmd/compile,runtime: provide index information on bounds check failure A few examples (for accessing a slice of length 3): s[-1] runtime error: index out of range [-1] s[3] runtime error: index out of range [3] with length 3 s[-1:0] runtime error: slice bounds out of range [-1:] s[3:0] runtime error: slice bounds out of range [3:0] s[3:-1] runtime error: slice bounds out of range [:-1] s[3:4] runtime error: slice bounds out of range [:4] with capacity 3 s[0:3:4] runtime error: slice bounds out of range [::4] with capacity 3 Note that in cases where there are multiple things wrong with the indexes (e.g. s[3:-1]), we report one of those errors kind of arbitrarily, currently the rightmost one. An exhaustive set of examples is in issue30116[u].out in the CL. The message text has the same prefix as the old message text. That leads to slightly awkward phrasing but hopefully minimizes the chance that code depending on the error text will break. Increases the size of the go binary by 0.5% (amd64). The panic functions take arguments in registers in order to keep the size of the compiled code as small as possible. Fixes #30116 Change-Id: Idb99a827b7888822ca34c240eca87b7e44a04fdd Reviewed-on: https://go-review.googlesource.com/c/go/+/161477 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2019-02-06 14:12:36 -08:00
// UseArgs records the fact that an instruction needs a certain amount of
// callee args space for its use.
func (s *SSAGenState) UseArgs(n int64) {
if s.maxarg < n {
s.maxarg = n
}
}
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// fieldIdx finds the index of the field referred to by the ODOT node n.
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func fieldIdx(n ir.Node) int {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
t := n.Left().Type()
f := n.Sym()
cmd/compile: use t.IsFoo() instead of t.Etype == TFOO CL produced mechanically using gofmt -w -r. Passes toolstash -cmp. Change-Id: Ib2e8710ebd844e2149125b41c335b71a02fcab53 Reviewed-on: https://go-review.googlesource.com/21338 Run-TryBot: Matthew Dempsky <mdempsky@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-03-30 14:56:08 -07:00
if !t.IsStruct() {
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
panic("ODOT's LHS is not a struct")
}
cmd/compile: use int for field index All of a struct's fields have to fit into memory anyway, so index them with int instead of int64. This also makes it nicer for cmd/compile/internal/gc to reuse the same NumFields function. Change-Id: I210be804a0c33370ec9977414918c02c675b0fbe Reviewed-on: https://go-review.googlesource.com/20691 Reviewed-by: Ian Lance Taylor <iant@golang.org>
2016-03-14 12:45:18 -07:00
var i int
cmd/compile: eliminate a bunch of IterFields/IterMethods calls This is an automated rewrite of all the calls of the form: for f, it := IterFields(t); f != nil; f = it.Next() { ... } Followup CLs will work on cleaning up the remaining cases. Change-Id: Ic1005ad45ae0b50c63e815e34e507e2d2644ba1a Reviewed-on: https://go-review.googlesource.com/20794 Reviewed-by: David Crawshaw <crawshaw@golang.org>
2016-03-17 01:32:18 -07:00
for _, t1 := range t.Fields().Slice() {
cmd/compile: change ODOT and friends to use Sym, not Right The Node type ODOT and its variants all represent a selector, with a simple name to the right of the dot. Before this change this was represented by using an ONAME Node in the Right field. This ONAME node served no useful purpose. This CL changes these Node types to store the symbol in the Sym field instead, thus not requiring allocating a Node for each selector. When compiling x/tools/go/types this CL eliminates nearly 5000 calls to newname and reduces the total number of Nodes allocated by about 6.6%. It seems to cut compilation time by 1 to 2 percent. Getting this right was somewhat subtle, and I added two dubious changes to produce the exact same output as before. One is to ishairy in inl.go: the ONAME node increased the cost of ODOT and friends by 1, and I retained that, although really ODOT is not more expensive than any other node. The other is to varexpr in walk.go: because the ONAME in the Right field of an ODOT has no class, varexpr would always return false for an ODOT, although in fact for some ODOT's it seemingly ought to return true; I added an && false for now. I will send separate CLs, that will break toolstash -cmp, to clean these up. This CL passes toolstash -cmp. Change-Id: I4af8a10cc59078c436130ce472f25abc3a9b2f80 Reviewed-on: https://go-review.googlesource.com/20890 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2016-03-18 16:52:30 -07:00
if t1.Sym != f {
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
i++
continue
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if t1.Offset != n.Offset() {
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
panic("field offset doesn't match")
}
return i
}
cmd/compile: rewrite %1v and %2v formats to %S and %L (short and long) - also consistently use %v instead of %s when we have a (gc) Formatter - rewrite done automatically using Formats test in -u (update) mode - manual update of format strings that were not single string constants - updated fmt.go, fmt_test.go accordingly - fmt_test: permit "%T" always Change-Id: I8f0704286aba5704600ad0c4a4484005b79b905d Reviewed-on: https://go-review.googlesource.com/28954 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-09-09 21:08:46 -07:00
panic(fmt.Sprintf("can't find field in expr %v\n", n))
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
all: fix spelling mistakes Signed-off-by: Eric Engestrom <eric@engestrom.ch> Change-Id: I91873aaebf79bdf1c00d38aacc1a1fb8d79656a7 Reviewed-on: https://go-review.googlesource.com/21433 Reviewed-by: Ian Lance Taylor <iant@golang.org> Run-TryBot: Ian Lance Taylor <iant@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2016-04-03 12:43:27 +01:00
// TODO: keep the result of this function somewhere in the ODOT Node
[dev.ssa] cmd/compile: Allow structs to be SSAd Break small structs up into their components so they can be registerized. Change StructSelect to use field indexes instead of field offsets, as field offsets aren't unique in the presence of zero-sized fields. Change-Id: I2f1dc89f7fa58e1cf58aa1a32b238959d53f62e4 Reviewed-on: https://go-review.googlesource.com/18570 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-01-11 21:05:33 -08:00
// so we don't have to recompute it each time we need it.
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
// ssafn holds frontend information about a function that the backend is processing.
// It also exports a bunch of compiler services for the ssa backend.
type ssafn struct {
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
curfn ir.Node
cmd/compile: start implementing strongly typed aux and auxint fields Right now the Aux and AuxInt fields of ssa.Values are typed as interface{} and int64, respectively. Each rule that uses these values must cast them to the type they actually are (*obj.LSym, or int32, or ValAndOff, etc.), use them, and then cast them back to interface{} or int64. We know for each opcode what the types of the Aux and AuxInt fields should be. So let's modify the rule generator to declare the types to be what we know they should be, autoconverting to and from the generic types for us. That way we can make the rules more type safe. It's difficult to make a single CL for this, so I've coopted the "=>" token to indicate a rule that is strongly typed. "->" rules are processed as before. That will let us migrate a few rules at a time in separate CLs. Hopefully we can reach a state where all rules are strongly typed and we can drop the distinction. This CL changes just a few rules to get a feel for what this transition would look like. I've decided not to put explicit types in the rules. I think it makes the rules somewhat clearer, but definitely more verbose. In particular, the passthrough rules that don't modify the fields in question are verbose for no real reason. Change-Id: I63a1b789ac5702e7caf7934cd49f784235d1d73d Reviewed-on: https://go-review.googlesource.com/c/go/+/190197 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-03-19 16:25:08 -07:00
strings map[string]*obj.LSym // map from constant string to data symbols
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
scratchFpMem ir.Node // temp for floating point register / memory moves on some architectures
cmd/compile: start implementing strongly typed aux and auxint fields Right now the Aux and AuxInt fields of ssa.Values are typed as interface{} and int64, respectively. Each rule that uses these values must cast them to the type they actually are (*obj.LSym, or int32, or ValAndOff, etc.), use them, and then cast them back to interface{} or int64. We know for each opcode what the types of the Aux and AuxInt fields should be. So let's modify the rule generator to declare the types to be what we know they should be, autoconverting to and from the generic types for us. That way we can make the rules more type safe. It's difficult to make a single CL for this, so I've coopted the "=>" token to indicate a rule that is strongly typed. "->" rules are processed as before. That will let us migrate a few rules at a time in separate CLs. Hopefully we can reach a state where all rules are strongly typed and we can drop the distinction. This CL changes just a few rules to get a feel for what this transition would look like. I've decided not to put explicit types in the rules. I think it makes the rules somewhat clearer, but definitely more verbose. In particular, the passthrough rules that don't modify the fields in question are verbose for no real reason. Change-Id: I63a1b789ac5702e7caf7934cd49f784235d1d73d Reviewed-on: https://go-review.googlesource.com/c/go/+/190197 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-03-19 16:25:08 -07:00
stksize int64 // stack size for current frame
stkptrsize int64 // prefix of stack containing pointers
log bool // print ssa debug to the stdout
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
}
cmd/compile: start implementing strongly typed aux and auxint fields Right now the Aux and AuxInt fields of ssa.Values are typed as interface{} and int64, respectively. Each rule that uses these values must cast them to the type they actually are (*obj.LSym, or int32, or ValAndOff, etc.), use them, and then cast them back to interface{} or int64. We know for each opcode what the types of the Aux and AuxInt fields should be. So let's modify the rule generator to declare the types to be what we know they should be, autoconverting to and from the generic types for us. That way we can make the rules more type safe. It's difficult to make a single CL for this, so I've coopted the "=>" token to indicate a rule that is strongly typed. "->" rules are processed as before. That will let us migrate a few rules at a time in separate CLs. Hopefully we can reach a state where all rules are strongly typed and we can drop the distinction. This CL changes just a few rules to get a feel for what this transition would look like. I've decided not to put explicit types in the rules. I think it makes the rules somewhat clearer, but definitely more verbose. In particular, the passthrough rules that don't modify the fields in question are verbose for no real reason. Change-Id: I63a1b789ac5702e7caf7934cd49f784235d1d73d Reviewed-on: https://go-review.googlesource.com/c/go/+/190197 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-03-19 16:25:08 -07:00
// StringData returns a symbol which
[dev.ssa] cmd/compile: use string contents instead of offset from string header This generates more efficient code. Before: 0x003a 00058 (rr.go:7) LEAQ go.string.hdr."="(SB), BX 0x0041 00065 (rr.go:7) LEAQ 16(BX), BP 0x0045 00069 (rr.go:7) MOVQ BP, 16(SP) After: 0x003a 00058 (rr.go:7) LEAQ go.string."="(SB), BX 0x0041 00065 (rr.go:7) MOVQ BX, 16(SP) It also matches the existing backend and is more robust to other changes, such as CL 11698, which I believe broke the current code. This CL fixes the encoding/base64 tests, as run with: GOGC=off GOSSAPKG=base64 go test -a encoding/base64 Change-Id: I3c475bed1dd3335cc14e13309e11d23f0ed32c17 Reviewed-on: https://go-review.googlesource.com/12654 Reviewed-by: Keith Randall <khr@golang.org>
2015-07-24 11:28:12 -07:00
// is the data component of a global string constant containing s.
cmd/compile: start implementing strongly typed aux and auxint fields Right now the Aux and AuxInt fields of ssa.Values are typed as interface{} and int64, respectively. Each rule that uses these values must cast them to the type they actually are (*obj.LSym, or int32, or ValAndOff, etc.), use them, and then cast them back to interface{} or int64. We know for each opcode what the types of the Aux and AuxInt fields should be. So let's modify the rule generator to declare the types to be what we know they should be, autoconverting to and from the generic types for us. That way we can make the rules more type safe. It's difficult to make a single CL for this, so I've coopted the "=>" token to indicate a rule that is strongly typed. "->" rules are processed as before. That will let us migrate a few rules at a time in separate CLs. Hopefully we can reach a state where all rules are strongly typed and we can drop the distinction. This CL changes just a few rules to get a feel for what this transition would look like. I've decided not to put explicit types in the rules. I think it makes the rules somewhat clearer, but definitely more verbose. In particular, the passthrough rules that don't modify the fields in question are verbose for no real reason. Change-Id: I63a1b789ac5702e7caf7934cd49f784235d1d73d Reviewed-on: https://go-review.googlesource.com/c/go/+/190197 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-03-19 16:25:08 -07:00
func (e *ssafn) StringData(s string) *obj.LSym {
cmd/compile: enable CSE of constant strings CL 27254 changed a constant string to a byte array in encoding/hex and got significant performance improvements. hex.Encode used the string twice in a single function. The rewrite rules lower constant strings into components. The pointer component requires an aux symbol. The existing implementation created a new aux symbol every time. As a result, constant string pointers were never CSE'd. Tighten then moved the pointer calculation next to the uses, i.e. into the loop. The re-use of aux syms enabled by this CL occurs 3691 times during make.bash. This CL should not go in without CL 38338 or something like it. Change-Id: Ibbf5b17283c0e31821d04c7e08d995c654de5663 Reviewed-on: https://go-review.googlesource.com/28219 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-08-30 19:11:19 -07:00
if aux, ok := e.strings[s]; ok {
return aux
}
if e.strings == nil {
cmd/compile: start implementing strongly typed aux and auxint fields Right now the Aux and AuxInt fields of ssa.Values are typed as interface{} and int64, respectively. Each rule that uses these values must cast them to the type they actually are (*obj.LSym, or int32, or ValAndOff, etc.), use them, and then cast them back to interface{} or int64. We know for each opcode what the types of the Aux and AuxInt fields should be. So let's modify the rule generator to declare the types to be what we know they should be, autoconverting to and from the generic types for us. That way we can make the rules more type safe. It's difficult to make a single CL for this, so I've coopted the "=>" token to indicate a rule that is strongly typed. "->" rules are processed as before. That will let us migrate a few rules at a time in separate CLs. Hopefully we can reach a state where all rules are strongly typed and we can drop the distinction. This CL changes just a few rules to get a feel for what this transition would look like. I've decided not to put explicit types in the rules. I think it makes the rules somewhat clearer, but definitely more verbose. In particular, the passthrough rules that don't modify the fields in question are verbose for no real reason. Change-Id: I63a1b789ac5702e7caf7934cd49f784235d1d73d Reviewed-on: https://go-review.googlesource.com/c/go/+/190197 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2020-03-19 16:25:08 -07:00
e.strings = make(map[string]*obj.LSym)
cmd/compile: enable CSE of constant strings CL 27254 changed a constant string to a byte array in encoding/hex and got significant performance improvements. hex.Encode used the string twice in a single function. The rewrite rules lower constant strings into components. The pointer component requires an aux symbol. The existing implementation created a new aux symbol every time. As a result, constant string pointers were never CSE'd. Tighten then moved the pointer calculation next to the uses, i.e. into the loop. The re-use of aux syms enabled by this CL occurs 3691 times during make.bash. This CL should not go in without CL 38338 or something like it. Change-Id: Ibbf5b17283c0e31821d04c7e08d995c654de5663 Reviewed-on: https://go-review.googlesource.com/28219 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2016-08-30 19:11:19 -07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
data := stringsym(e.curfn.Pos(), s)
cmd/compile: remove Symbol wrappers from Aux fields We used to have {Arg,Auto,Extern}Symbol structs with which we wrapped a *gc.Node or *obj.LSym before storing them in the Aux field of an ssa.Value. This let the SSA part of the compiler distinguish between autos and args, for example. We no longer need the wrappers as we can query the underlying objects directly. There was also some sloppy usage, where VarDef had a *gc.Node directly in its Aux field, whereas the use of that variable had that *gc.Node wrapped in an AutoSymbol. Thus the Aux fields didn't match (using ==) when they probably should. This sloppy usage cleanup is the only thing in the CL that changes the generated code - we can get rid of some more unused auto variables if the matching happens reliably. Removing this wrapper also lets us get rid of the varsyms cache (which was used to prevent wrapping the same *gc.Node twice). Change-Id: I0dedf8f82f84bfee413d310342b777316bd1d478 Reviewed-on: https://go-review.googlesource.com/64452 TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-09-18 14:53:56 -07:00
e.strings[s] = data
return data
[dev.ssa] cmd/internal/ssa: add string operations Add ops to load, store, select ptr & len, and build constant strings. A few other minor cleanups. Change-Id: I6f0f7419d641b119b613ed44561cd308a466051c Reviewed-on: https://go-review.googlesource.com/10449 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-05-27 14:52:22 -07:00
}
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func (e *ssafn) Auto(pos src.XPos, t *types.Type) ir.Node {
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
n := tempAt(pos, e.curfn, t) // Note: adds new auto to e.curfn.Func.Dcl list
[dev.ssa] cmd/runtime: generate gc bitmaps for SSA-compiled code This change is all about leveraging the gc bitmap generation that is already done by the current compiler. We rearrange how stack allocation is done so that we generate a variable declaration for each spill. We also reorganize how args/locals are recorded during SSA. Then we can use the existing allocauto/defframe to allocate the stack frame and liveness to make the gc bitmaps. With this change, stack copying works correctly and we no longer need hacks in runtime/stack*.go to make tests work. GC is close to working, it just needs write barriers. Change-Id: I990fb4e3fbe98850c6be35c3185a1c85d9e1a6ba Reviewed-on: https://go-review.googlesource.com/13894 Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2015-08-24 02:16:19 -07:00
return n
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitString(name ssa.LocalSlot) (ssa.LocalSlot, ssa.LocalSlot) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
ptrType := types.NewPtr(types.Types[types.TUINT8])
lenType := types.Types[types.TINT]
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
// Split this string up into two separate variables.
p := e.SplitSlot(&name, ".ptr", 0, ptrType)
l := e.SplitSlot(&name, ".len", ptrType.Size(), lenType)
return p, l
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitInterface(name ssa.LocalSlot) (ssa.LocalSlot, ssa.LocalSlot) {
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
n := name.N
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
u := types.Types[types.TUINTPTR]
t := types.NewPtr(types.Types[types.TUINT8])
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
// Split this interface up into two separate variables.
f := ".itab"
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Type().IsEmptyInterface() {
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
f = ".type"
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
c := e.SplitSlot(&name, f, 0, u) // see comment in plive.go:onebitwalktype1.
d := e.SplitSlot(&name, ".data", u.Size(), t)
return c, d
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitSlice(name ssa.LocalSlot) (ssa.LocalSlot, ssa.LocalSlot, ssa.LocalSlot) {
cmd/compile/internal/types: remove ElemType wrapper This was an artifact from when we had a separate ssa.Type interface to break circular dependency between packages ssa and gc. It's no longer needed now that package ssa directly uses package types. Change-Id: I6a93e5d79082815f7f0eb89507381969cc6cb403 Reviewed-on: https://go-review.googlesource.com/109137 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-04-24 13:39:51 -07:00
ptrType := types.NewPtr(name.Type.Elem())
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
lenType := types.Types[types.TINT]
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
p := e.SplitSlot(&name, ".ptr", 0, ptrType)
l := e.SplitSlot(&name, ".len", ptrType.Size(), lenType)
c := e.SplitSlot(&name, ".cap", ptrType.Size()+lenType.Size(), lenType)
return p, l, c
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitComplex(name ssa.LocalSlot) (ssa.LocalSlot, ssa.LocalSlot) {
Revert "cmd/compile: add Type.MustSize and Type.MustAlignment" This reverts commit 94d540a4b6bf68ec472bf4469037955e3133fcf7. Reason for revert: prefer something along the lines of CL 42018. Change-Id: I876fe32e98f37d8d725fe55e0fd0ea429c0198e0 Reviewed-on: https://go-review.googlesource.com/42022 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-28 00:19:49 +00:00
s := name.Type.Size() / 2
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
var t *types.Type
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
if s == 8 {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
t = types.Types[types.TFLOAT64]
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
t = types.Types[types.TFLOAT32]
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
r := e.SplitSlot(&name, ".real", 0, t)
i := e.SplitSlot(&name, ".imag", t.Size(), t)
return r, i
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitInt64(name ssa.LocalSlot) (ssa.LocalSlot, ssa.LocalSlot) {
cmd/compile: factor out Pkg, Sym, and Type into package types - created new package cmd/compile/internal/types - moved Pkg, Sym, Type to new package - to break cycles, for now we need the (ugly) types/utils.go file which contains a handful of functions that must be installed early by the gc frontend - to break cycles, for now we need two functions to convert between *gc.Node and *types.Node (the latter is a dummy type) - adjusted the gc's code to use the new package and the conversion functions as needed - made several Pkg, Sym, and Type methods functions as needed - renamed constructors typ, typPtr, typArray, etc. to types.New, types.NewPtr, types.NewArray, etc. Passes toolstash-check -all. Change-Id: I8adfa5e85c731645d0a7fd2030375ed6ebf54b72 Reviewed-on: https://go-review.googlesource.com/39855 Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-04 17:54:02 -07:00
var t *types.Type
[dev.ssa] cmd/compile: decompose 64-bit integer on ARM Introduce dec64 rules to (generically) decompose 64-bit integer on 32-bit architectures. 64-bit integer is composed/decomposed with Int64Make/Hi/Lo ops, as for complex types. The idea of dealing with Add64 is the following: (Add64 (Int64Make xh xl) (Int64Make yh yl)) -> (Int64Make (Add32withcarry xh yh (Select0 (Add32carry xl yl))) (Select1 (Add32carry xl yl))) where Add32carry returns a tuple (flags,uint32). Select0 and Select1 read the first and the second component of the tuple, respectively. The two Add32carry will be CSE'd. Similarly for multiplication, Mul32uhilo returns a tuple (hi, lo). Also add support of KeepAlive, to fix build after merge. Tests addressed_ssa.go, array_ssa.go, break_ssa.go, chan_ssa.go, cmp_ssa.go, ctl_ssa.go, map_ssa.go, and string_ssa.go in cmd/compile/internal/gc/testdata passed. Progress on SSA for ARM. Still not complete. Updates #15365. Change-Id: I7867c76785a456312de5d8398a6b3f7ca5a4f7ec Reviewed-on: https://go-review.googlesource.com/23213 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-18 18:14:36 -04:00
if name.Type.IsSigned() {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
t = types.Types[types.TINT32]
[dev.ssa] cmd/compile: decompose 64-bit integer on ARM Introduce dec64 rules to (generically) decompose 64-bit integer on 32-bit architectures. 64-bit integer is composed/decomposed with Int64Make/Hi/Lo ops, as for complex types. The idea of dealing with Add64 is the following: (Add64 (Int64Make xh xl) (Int64Make yh yl)) -> (Int64Make (Add32withcarry xh yh (Select0 (Add32carry xl yl))) (Select1 (Add32carry xl yl))) where Add32carry returns a tuple (flags,uint32). Select0 and Select1 read the first and the second component of the tuple, respectively. The two Add32carry will be CSE'd. Similarly for multiplication, Mul32uhilo returns a tuple (hi, lo). Also add support of KeepAlive, to fix build after merge. Tests addressed_ssa.go, array_ssa.go, break_ssa.go, chan_ssa.go, cmp_ssa.go, ctl_ssa.go, map_ssa.go, and string_ssa.go in cmd/compile/internal/gc/testdata passed. Progress on SSA for ARM. Still not complete. Updates #15365. Change-Id: I7867c76785a456312de5d8398a6b3f7ca5a4f7ec Reviewed-on: https://go-review.googlesource.com/23213 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-18 18:14:36 -04:00
} else {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
t = types.Types[types.TUINT32]
[dev.ssa] cmd/compile: decompose 64-bit integer on ARM Introduce dec64 rules to (generically) decompose 64-bit integer on 32-bit architectures. 64-bit integer is composed/decomposed with Int64Make/Hi/Lo ops, as for complex types. The idea of dealing with Add64 is the following: (Add64 (Int64Make xh xl) (Int64Make yh yl)) -> (Int64Make (Add32withcarry xh yh (Select0 (Add32carry xl yl))) (Select1 (Add32carry xl yl))) where Add32carry returns a tuple (flags,uint32). Select0 and Select1 read the first and the second component of the tuple, respectively. The two Add32carry will be CSE'd. Similarly for multiplication, Mul32uhilo returns a tuple (hi, lo). Also add support of KeepAlive, to fix build after merge. Tests addressed_ssa.go, array_ssa.go, break_ssa.go, chan_ssa.go, cmp_ssa.go, ctl_ssa.go, map_ssa.go, and string_ssa.go in cmd/compile/internal/gc/testdata passed. Progress on SSA for ARM. Still not complete. Updates #15365. Change-Id: I7867c76785a456312de5d8398a6b3f7ca5a4f7ec Reviewed-on: https://go-review.googlesource.com/23213 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-18 18:14:36 -04:00
}
cmd/compile/internal/gc: rename Thearch to thearch Prepared using gorename. Change-Id: Id55dac9ae5446a8bfeac06e7995b35f4c249eeca Reviewed-on: https://go-review.googlesource.com/38302 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-03-17 13:35:36 -07:00
if thearch.LinkArch.ByteOrder == binary.BigEndian {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return e.SplitSlot(&name, ".hi", 0, t), e.SplitSlot(&name, ".lo", t.Size(), types.Types[types.TUINT32])
cmd/compile/internal/gc: add support for GOARCH=mips{,le} Change-Id: Ida4cd647525abce3441bfcb9fdee059344fe717f Reviewed-on: https://go-review.googlesource.com/31477 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2016-10-18 23:50:40 +02:00
}
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
return e.SplitSlot(&name, ".hi", t.Size(), t), e.SplitSlot(&name, ".lo", 0, types.Types[types.TUINT32])
[dev.ssa] cmd/compile: decompose 64-bit integer on ARM Introduce dec64 rules to (generically) decompose 64-bit integer on 32-bit architectures. 64-bit integer is composed/decomposed with Int64Make/Hi/Lo ops, as for complex types. The idea of dealing with Add64 is the following: (Add64 (Int64Make xh xl) (Int64Make yh yl)) -> (Int64Make (Add32withcarry xh yh (Select0 (Add32carry xl yl))) (Select1 (Add32carry xl yl))) where Add32carry returns a tuple (flags,uint32). Select0 and Select1 read the first and the second component of the tuple, respectively. The two Add32carry will be CSE'd. Similarly for multiplication, Mul32uhilo returns a tuple (hi, lo). Also add support of KeepAlive, to fix build after merge. Tests addressed_ssa.go, array_ssa.go, break_ssa.go, chan_ssa.go, cmp_ssa.go, ctl_ssa.go, map_ssa.go, and string_ssa.go in cmd/compile/internal/gc/testdata passed. Progress on SSA for ARM. Still not complete. Updates #15365. Change-Id: I7867c76785a456312de5d8398a6b3f7ca5a4f7ec Reviewed-on: https://go-review.googlesource.com/23213 Reviewed-by: Keith Randall <khr@golang.org>
2016-05-18 18:14:36 -04:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitStruct(name ssa.LocalSlot, i int) ssa.LocalSlot {
cmd/compile: fix naming of decomposed structs When a struct is SSAable, we will name its component parts by their field names. For example, type T struct { a, b, c int } If we ever need to spill a variable x of type T, we will spill its individual components to variables named x.a, x.b, and x.c. Change-Id: I857286ff1f2597f2c4bbd7b4c0b936386fb37131 Reviewed-on: https://go-review.googlesource.com/21389 Reviewed-by: David Chase <drchase@google.com>
2016-03-31 21:24:10 -07:00
st := name.Type
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
// Note: the _ field may appear several times. But
// have no fear, identically-named but distinct Autos are
// ok, albeit maybe confusing for a debugger.
cmd/compile: make sure field offset is aligned for structure splitting Always use the aligned form -- the old code sometimes could at least nominally use a misaligned field in an SSA-able struct, even if not actually. Fixes #42181. Change-Id: Ibdce0985f9349da70921a37423054b85ee4200d0 Reviewed-on: https://go-review.googlesource.com/c/go/+/265277 Reviewed-by: Than McIntosh <thanm@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com> Trust: David Chase <drchase@google.com>
2020-10-26 19:06:39 -04:00
return e.SplitSlot(&name, "."+st.FieldName(i), st.FieldOff(i), st.FieldType(i))
cmd/compile: fix naming of decomposed structs When a struct is SSAable, we will name its component parts by their field names. For example, type T struct { a, b, c int } If we ever need to spill a variable x of type T, we will spill its individual components to variables named x.a, x.b, and x.c. Change-Id: I857286ff1f2597f2c4bbd7b4c0b936386fb37131 Reviewed-on: https://go-review.googlesource.com/21389 Reviewed-by: David Chase <drchase@google.com>
2016-03-31 21:24:10 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) SplitArray(name ssa.LocalSlot) ssa.LocalSlot {
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
n := name.N
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
at := name.Type
if at.NumElem() != 1 {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
e.Fatalf(n.Pos(), "bad array size")
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
}
cmd/compile/internal/types: remove ElemType wrapper This was an artifact from when we had a separate ssa.Type interface to break circular dependency between packages ssa and gc. It's no longer needed now that package ssa directly uses package types. Change-Id: I6a93e5d79082815f7f0eb89507381969cc6cb403 Reviewed-on: https://go-review.googlesource.com/109137 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2018-04-24 13:39:51 -07:00
et := at.Elem()
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
return e.SplitSlot(&name, "[0]", 0, et)
cmd/compile: make [0]T and [1]T SSAable types We used to have to keep on-stack copies of these types. Now they can be registerized. [0]T is kind of trivial but might as well handle it. This change enables another change I'm working on to improve how x.(T) expressions are handled (#17405). This CL helps because now all types that are direct interface types are registerizeable (e.g. [1]*byte). No higher-degree arrays for now because non-constant indexes are hard. Update #17405 Change-Id: I2399940965d17b3969ae66f6fe447a8cefdd6edd Reviewed-on: https://go-review.googlesource.com/32416 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-10-30 21:10:03 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) DerefItab(it *obj.LSym, offset int64) *obj.LSym {
cmd/compile: de-virtualize interface calls With this change, code like h := sha1.New() h.Write(buf) sum := h.Sum() gets compiled into static calls rather than interface calls, because the compiler is able to prove that 'h' is really a *sha1.digest. The InterCall re-write rule hits a few dozen times during make.bash, and hundreds of times during all.bash. The most common pattern identified by the compiler is a constructor like func New() Interface { return &impl{...} } where the constructor gets inlined into the caller, and the result is used immediately. Examples include {sha1,md5,crc32,crc64,...}.New, base64.NewEncoder, base64.NewDecoder, errors.New, net.Pipe, and so on. Some existing benchmarks that change on darwin/amd64: Crc64/ISO4KB-8 2.67µs ± 1% 2.66µs ± 0% -0.36% (p=0.015 n=10+10) Crc64/ISO1KB-8 694ns ± 0% 690ns ± 1% -0.59% (p=0.001 n=10+10) Adler32KB-8 473ns ± 1% 471ns ± 0% -0.39% (p=0.010 n=10+9) On architectures like amd64, the reduction in code size appears to contribute more to benchmark improvements than just removing the indirect call, since that branch gets predicted accurately when called in a loop. Updates #19361 Change-Id: I57d4dc21ef40a05ec0fbd55a9bb0eb74cdc67a3d Reviewed-on: https://go-review.googlesource.com/38139 Run-TryBot: Philip Hofer <phofer@umich.edu> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2017-03-13 15:03:17 -07:00
return itabsym(it, offset)
}
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
// SplitSlot returns a slot representing the data of parent starting at offset.
func (e *ssafn) SplitSlot(parent *ssa.LocalSlot, suffix string, offset int64, t *types.Type) ssa.LocalSlot {
[dev.regabi] cmd/compile: remove gc ↔ ssa cycle hacks The cycle hacks existed because gc needed to import ssa which need to know about gc.Node. But now that's ir.Node, and there's no cycle anymore. Don't know how much it matters but LocalSlot is now one word shorter than before, because it holds a pointer instead of an interface for the *Node. That won't last long. Now that they're not necessary for interface satisfaction, IsSynthetic and IsAutoTmp can move to top-level ir functions. Change-Id: Ie511e93466cfa2b17d9a91afc4bd8d53fdb80453 Reviewed-on: https://go-review.googlesource.com/c/go/+/272931 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-17 21:47:56 -05:00
node := parent.N
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if node.Class() != ir.PAUTO || node.Name().Addrtaken() {
cmd/compile: avoid generating CSEs; do all aggregates; maintain debug names This adds a pass to detect common selection operations, to avoid generating duplicates. Duplicate offsets are also detected. All aggregate types are now handled; there is some freedom in where expand_calls is run, though it must run before softfloat. Debug-name-maintenance is now incremental both in decompose builtin and in expand_calls; it might be good to push this into all the decompose passes. (this is a smash of 5 CLs that rewrote some of the same code several times to deal with phase-ordering problems, and included an abandoned attempt.) For #40724. Change-Id: I2a0c32f20660bf8b99e2bcecd33545d97d2bd3c6 Reviewed-on: https://go-review.googlesource.com/c/go/+/249458 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-08-17 16:57:22 -04:00
// addressed things and non-autos retain their parents (i.e., cannot truly be split)
return ssa.LocalSlot{N: node, Type: t, Off: parent.Off + offset}
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
s := &types.Sym{Name: node.Sym().Name + suffix, Pkg: ir.LocalPkg}
n := ir.NewNameAt(parent.N.Pos(), s)
[dev.regabi] cmd/compile: convert types.Node (a pointer) to types.IRNode (an interface) The pointer hack was nice and saved a word, but it's untenable in a world where nodes are themselves interfaces with different underlying types. Bite the bullet and use an interface to hold the Node when in types.Sym and types.Type. This has the nice benefit of removing AsTypesNode entirely. AsNode is still useful because of its nil handling. Change-Id: I298cba9ff788b956ee287283bec78010e8b601e5 Reviewed-on: https://go-review.googlesource.com/c/go/+/272933 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 00:30:58 -05:00
s.Def = n
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
ir.AsNode(s.Def).Name().SetUsed(true)
n.SetType(t)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
n.SetClass(ir.PAUTO)
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
n.SetEsc(EscNever)
n.Name().Curfn = e.curfn
e.curfn.Func().Dcl = append(e.curfn.Func().Dcl, n)
cmd/compile: add sizeCalculationDisabled flag Use it to ensure that dowidth is not called from the backend on a type whose size has not yet been calculated. This is an alternative to CL 42016. Change-Id: I8c7b4410ee4c2a68573102f6b9b635f4fdcf392e Reviewed-on: https://go-review.googlesource.com/42018 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-04-27 16:37:25 -07:00
dowidth(t)
[dev.debug] cmd/compile: track variable decomposition in LocalSlot When the compiler decomposes a user variable, track its origin so that it can be recomposed during DWARF generation. Change-Id: Ia71c7f8e7f4d65f0652f1c97b0dda5d9cad41936 Reviewed-on: https://go-review.googlesource.com/50878 Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2017-07-21 18:28:06 -04:00
return ssa.LocalSlot{N: n, Type: t, Off: 0, SplitOf: parent, SplitOffset: offset}
cmd/compile: better job of naming compound types Compound AUTO types weren't named previously. That was because live variable analysis (plive.go) doesn't handle spilling to compound types. It can't handle them because there is no valid place to put VARDEFs when regalloc is spilling compound types. compound types = multiword builtin types: complex, string, slice, and interface. Instead, we split named AUTOs into individual one-word variables. For example, a string s gets split into a byte ptr s.ptr and an integer s.len. Those two variables can be spilled to / restored from independently. As a result, live variable analysis can handle them because they are one-word objects. This CL will change how AUTOs are described in DWARF information. Consider the code: func f(s string, i int) int { x := s[i:i+5] g() return lookup(x) } The old compiler would spill x to two consecutive slots on the stack, both named x (at offsets 0 and 8). The new compiler spills the pointer of x to a slot named x.ptr. It doesn't spill x.len at all, as it is a constant (5) and can be rematerialized for the call to lookup. So compound objects may not be spilled in their entirety, and even if they are they won't necessarily be contiguous. Such is the price of optimization. Re-enable live variable analysis tests. One test remains disabled, it fails because of #14904. Change-Id: I8ef2b5ab91e43a0d2136bfc231c05d100ec0b801 Reviewed-on: https://go-review.googlesource.com/21233 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
2016-03-28 11:25:17 -07:00
}
cmd/compile: change ssa.Type into *types.Type When package ssa was created, Type was in package gc. To avoid circular dependencies, we used an interface (ssa.Type) to represent type information in SSA. In the Go 1.9 cycle, gri extricated the Type type from package gc. As a result, we can now use it in package ssa. Now, instead of package types depending on package ssa, it is the other way. This is a more sensible dependency tree, and helps compiler performance a bit. Though this is a big CL, most of the changes are mechanical and uninteresting. Interesting bits: * Add new singleton globals to package types for the special SSA types Memory, Void, Invalid, Flags, and Int128. * Add two new Types, TSSA for the special types, and TTUPLE, for SSA tuple types. ssa.MakeTuple is now types.NewTuple. * Move type comparison result constants CMPlt, CMPeq, and CMPgt to package types. * We had picked the name "types" in our rules for the handy list of types provided by ssa.Config. That conflicted with the types package name, so change it to "typ". * Update the type comparison routine to handle tuples and special types inline. * Teach gc/fmt.go how to print special types. * We can now eliminate ElemTypes in favor of just Elem, and probably also some other duplicated Type methods designed to return ssa.Type instead of *types.Type. * The ssa tests were using their own dummy types, and they were not particularly careful about types in general. Of necessity, this CL switches them to use *types.Type; it does not make them more type-accurate. Unfortunately, using types.Type means initializing a bit of the types universe. This is prime for refactoring and improvement. This shrinks ssa.Value; it now fits in a smaller size class on 64 bit systems. This doesn't have a giant impact, though, since most Values are preallocated in a chunk. name old alloc/op new alloc/op delta Template 37.9MB ± 0% 37.7MB ± 0% -0.57% (p=0.000 n=10+8) Unicode 28.9MB ± 0% 28.7MB ± 0% -0.52% (p=0.000 n=10+10) GoTypes 110MB ± 0% 109MB ± 0% -0.88% (p=0.000 n=10+10) Flate 24.7MB ± 0% 24.6MB ± 0% -0.66% (p=0.000 n=10+10) GoParser 31.1MB ± 0% 30.9MB ± 0% -0.61% (p=0.000 n=10+9) Reflect 73.9MB ± 0% 73.4MB ± 0% -0.62% (p=0.000 n=10+8) Tar 25.8MB ± 0% 25.6MB ± 0% -0.77% (p=0.000 n=9+10) XML 41.2MB ± 0% 40.9MB ± 0% -0.80% (p=0.000 n=10+10) [Geo mean] 40.5MB 40.3MB -0.68% name old allocs/op new allocs/op delta Template 385k ± 0% 386k ± 0% ~ (p=0.356 n=10+9) Unicode 343k ± 1% 344k ± 0% ~ (p=0.481 n=10+10) GoTypes 1.16M ± 0% 1.16M ± 0% -0.16% (p=0.004 n=10+10) Flate 238k ± 1% 238k ± 1% ~ (p=0.853 n=10+10) GoParser 320k ± 0% 320k ± 0% ~ (p=0.720 n=10+9) Reflect 957k ± 0% 957k ± 0% ~ (p=0.460 n=10+8) Tar 252k ± 0% 252k ± 0% ~ (p=0.133 n=9+10) XML 400k ± 0% 400k ± 0% ~ (p=0.796 n=10+10) [Geo mean] 428k 428k -0.01% Removing all the interface calls helps non-trivially with CPU, though. name old time/op new time/op delta Template 178ms ± 4% 173ms ± 3% -2.90% (p=0.000 n=94+96) Unicode 85.0ms ± 4% 83.9ms ± 4% -1.23% (p=0.000 n=96+96) GoTypes 543ms ± 3% 528ms ± 3% -2.73% (p=0.000 n=98+96) Flate 116ms ± 3% 113ms ± 4% -2.34% (p=0.000 n=96+99) GoParser 144ms ± 3% 140ms ± 4% -2.80% (p=0.000 n=99+97) Reflect 344ms ± 3% 334ms ± 4% -3.02% (p=0.000 n=100+99) Tar 106ms ± 5% 103ms ± 4% -3.30% (p=0.000 n=98+94) XML 198ms ± 5% 192ms ± 4% -2.88% (p=0.000 n=92+95) [Geo mean] 178ms 173ms -2.65% name old user-time/op new user-time/op delta Template 229ms ± 5% 224ms ± 5% -2.36% (p=0.000 n=95+99) Unicode 107ms ± 6% 106ms ± 5% -1.13% (p=0.001 n=93+95) GoTypes 696ms ± 4% 679ms ± 4% -2.45% (p=0.000 n=97+99) Flate 137ms ± 4% 134ms ± 5% -2.66% (p=0.000 n=99+96) GoParser 176ms ± 5% 172ms ± 8% -2.27% (p=0.000 n=98+100) Reflect 430ms ± 6% 411ms ± 5% -4.46% (p=0.000 n=100+92) Tar 128ms ±13% 123ms ±13% -4.21% (p=0.000 n=100+100) XML 239ms ± 6% 233ms ± 6% -2.50% (p=0.000 n=95+97) [Geo mean] 220ms 213ms -2.76% Change-Id: I15c7d6268347f8358e75066dfdbd77db24e8d0c1 Reviewed-on: https://go-review.googlesource.com/42145 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-04-28 14:12:28 -07:00
func (e *ssafn) CanSSA(t *types.Type) bool {
return canSSAType(t)
[dev.ssa] cmd/compile: move un-SSAable objects We need to move any objects whose types are not SSA-able. Fixes the "not lowered: Load ARRAY PTR64 mem" errors. Change-Id: I7a0b609f917d7fb34bc9215fee4da15f9961cf6c Reviewed-on: https://go-review.googlesource.com/14753 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
2015-09-18 22:58:10 -07:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Line(pos src.XPos) string {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
return base.FmtPos(pos)
[dev.ssa] cmd/compile: optimize phi ops Redo how we keep track of forward references when building SSA. When the forward reference is resolved, update the Value node in place. Improve the phi elimination pass so it can simplify phis of phis. Give SSA package access to decoded line numbers. Fix line numbers for constant booleans. Change-Id: I3dc9896148d260be2f3dd14cbe5db639ec9fa6b7 Reviewed-on: https://go-review.googlesource.com/18674 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Keith Randall <khr@golang.org>
2016-01-14 16:02:23 -08:00
}
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
// Log logs a message from the compiler.
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Logf(msg string, args ...interface{}) {
cmd/compile: make ssa compilation unconditional Rip out the code that allows SSA to be used conditionally. No longer exists: ssa=0 flag GOSSAHASH GOSSAPKG SSATEST GOSSAFUNC now only controls the printing of the IR/html. Still need to rip out all of the old backend. It should no longer be callable after this CL. Update #16357 Change-Id: Ib30cc18fba6ca52232c41689ba610b0a94aa74f5 Reviewed-on: https://go-review.googlesource.com/29155 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Reviewed-by: Josh Bleecher Snyder <josharian@gmail.com>
2016-09-14 10:01:05 -07:00
if e.log {
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
fmt.Printf(msg, args...)
}
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Log() bool {
[dev.ssa] cmd/compile: exposed do-log boolean to reduce allocations From memory profiling, about 3% reduction in allocation count. Change-Id: I4b662d55b8a94fe724759a2b22f05a08d0bf40f8 Reviewed-on: https://go-review.googlesource.com/19103 Reviewed-by: Keith Randall <khr@golang.org>
2016-01-29 14:44:15 -05:00
return e.log
}
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
// Fatal reports a compiler error and exits.
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Fatalf(pos src.XPos, msg string, args ...interface{}) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Pos = pos
[dev.regabi] cmd/compile: introduce cmd/compile/internal/ir [generated] If we want to break up package gc at all, we will need to move the compiler IR it defines into a separate package that can be imported by packages that gc itself imports. This CL does that. It also removes the TINT8 etc aliases so that all code is clear about which package things are coming from. This CL is automatically generated by the script below. See the comments in the script for details about the changes. [git-generate] cd src/cmd/compile/internal/gc rf ' # These names were never fully qualified # when the types package was added. # Do it now, to avoid confusion about where they live. inline -rm \ Txxx \ TINT8 \ TUINT8 \ TINT16 \ TUINT16 \ TINT32 \ TUINT32 \ TINT64 \ TUINT64 \ TINT \ TUINT \ TUINTPTR \ TCOMPLEX64 \ TCOMPLEX128 \ TFLOAT32 \ TFLOAT64 \ TBOOL \ TPTR \ TFUNC \ TSLICE \ TARRAY \ TSTRUCT \ TCHAN \ TMAP \ TINTER \ TFORW \ TANY \ TSTRING \ TUNSAFEPTR \ TIDEAL \ TNIL \ TBLANK \ TFUNCARGS \ TCHANARGS \ NTYPE \ BADWIDTH # esc.go and escape.go do not need to be split. # Append esc.go onto the end of escape.go. mv esc.go escape.go # Pull out the type format installation from func Main, # so it can be carried into package ir. mv Main:/Sconv.=/-0,/TypeLinkSym/-1 InstallTypeFormats # Names that need to be exported for use by code left in gc. mv Isconst IsConst mv asNode AsNode mv asNodes AsNodes mv asTypesNode AsTypesNode mv basicnames BasicTypeNames mv builtinpkg BuiltinPkg mv consttype ConstType mv dumplist DumpList mv fdumplist FDumpList mv fmtMode FmtMode mv goopnames OpNames mv inspect Inspect mv inspectList InspectList mv localpkg LocalPkg mv nblank BlankNode mv numImport NumImport mv opprec OpPrec mv origSym OrigSym mv stmtwithinit StmtWithInit mv dump DumpAny mv fdump FDumpAny mv nod Nod mv nodl NodAt mv newname NewName mv newnamel NewNameAt mv assertRepresents AssertValidTypeForConst mv represents ValidTypeForConst mv nodlit NewLiteral # Types and fields that need to be exported for use by gc. mv nowritebarrierrecCallSym SymAndPos mv SymAndPos.lineno SymAndPos.Pos mv SymAndPos.target SymAndPos.Sym mv Func.lsym Func.LSym mv Func.setWBPos Func.SetWBPos mv Func.numReturns Func.NumReturns mv Func.numDefers Func.NumDefers mv Func.nwbrCalls Func.NWBRCalls # initLSym is an algorithm left behind in gc, # not an operation on Func itself. mv Func.initLSym initLSym mv nodeQueue NodeQueue mv NodeQueue.empty NodeQueue.Empty mv NodeQueue.popLeft NodeQueue.PopLeft mv NodeQueue.pushRight NodeQueue.PushRight # Many methods on Node are actually algorithms that # would apply to any node implementation. # Those become plain functions. mv Node.funcname FuncName mv Node.isBlank IsBlank mv Node.isGoConst isGoConst mv Node.isNil IsNil mv Node.isParamHeapCopy isParamHeapCopy mv Node.isParamStackCopy isParamStackCopy mv Node.isSimpleName isSimpleName mv Node.mayBeShared MayBeShared mv Node.pkgFuncName PkgFuncName mv Node.backingArrayPtrLen backingArrayPtrLen mv Node.isterminating isTermNode mv Node.labeledControl labeledControl mv Nodes.isterminating isTermNodes mv Nodes.sigerr fmtSignature mv Node.MethodName methodExprName mv Node.MethodFunc methodExprFunc mv Node.IsMethod IsMethod # Every node will need to implement RawCopy; # Copy and SepCopy algorithms will use it. mv Node.rawcopy Node.RawCopy mv Node.copy Copy mv Node.sepcopy SepCopy # Extract Node.Format method body into func FmtNode, # but leave method wrapper behind. mv Node.Format:0,$ FmtNode # Formatting helpers that will apply to all node implementations. mv Node.Line Line mv Node.exprfmt exprFmt mv Node.jconv jconvFmt mv Node.modeString modeString mv Node.nconv nconvFmt mv Node.nodedump nodeDumpFmt mv Node.nodefmt nodeFmt mv Node.stmtfmt stmtFmt # Constant support needed for code moving to ir. mv okforconst OKForConst mv vconv FmtConst mv int64Val Int64Val mv float64Val Float64Val mv Node.ValueInterface ConstValue # Organize code into files. mv LocalPkg BuiltinPkg ir.go mv NumImport InstallTypeFormats Line fmt.go mv syntax.go Nod NodAt NewNameAt Class Pxxx PragmaFlag Nointerface SymAndPos \ AsNode AsTypesNode BlankNode OrigSym \ Node.SliceBounds Node.SetSliceBounds Op.IsSlice3 \ IsConst Node.Int64Val Node.CanInt64 Node.Uint64Val Node.BoolVal Node.StringVal \ Node.RawCopy SepCopy Copy \ IsNil IsBlank IsMethod \ Node.Typ Node.StorageClass node.go mv ConstType ConstValue Int64Val Float64Val AssertValidTypeForConst ValidTypeForConst NewLiteral idealType OKForConst val.go # Move files to new ir package. mv bitset.go class_string.go dump.go fmt.go \ ir.go node.go op_string.go val.go \ sizeof_test.go cmd/compile/internal/ir ' : # fix mkbuiltin.go to generate the changes made to builtin.go during rf sed -i '' ' s/\[T/[types.T/g s/\*Node/*ir.Node/g /internal\/types/c \ fmt.Fprintln(&b, `import (`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/ir"`) \ fmt.Fprintln(&b, ` "cmd/compile/internal/types"`) \ fmt.Fprintln(&b, `)`) ' mkbuiltin.go gofmt -w mkbuiltin.go : # update cmd/dist to add internal/ir cd ../../../dist sed -i '' '/compile.internal.gc/a\ "cmd/compile/internal/ir", ' buildtool.go gofmt -w buildtool.go : # update cmd/compile TestFormats cd ../.. go install std cmd cd cmd/compile go test -u || go test # first one updates but fails; second passes Change-Id: I5f7caf6b20629b51970279e81231a3574d5b51db Reviewed-on: https://go-review.googlesource.com/c/go/+/273008 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 21:09:22 -05:00
nargs := append([]interface{}{ir.FuncName(e.curfn)}, args...)
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.Fatalf("'%s': "+msg, nargs...)
[dev.ssa] cmd/compile/ssa: separate logging, work in progress, and fatal errors The SSA implementation logs for three purposes: * debug logging * fatal errors * unimplemented features Separating these three uses lets us attempt an SSA implementation for all functions, not just _ssa functions. This turns the entire standard library into a compilation test, and makes it easy to figure out things like "how much coverage does SSA have now" and "what should we do next to get more coverage?". Functions called _ssa are still special. They log profusely by default and the output of the SSA implementation is used. For all other functions, logging is off, and the implementation is built and discarded, due to lack of support for the runtime. While we're here, fix a few minor bugs and add some extra Unimplementeds to allow all.bash to pass. As of now, SSA handles 20.79% of the functions in the standard library (689 of 3314). The top missing features are: 10.03% 2597 SSA unimplemented: zero for type error not implemented 7.79% 2016 SSA unimplemented: addr: bad op DOTPTR 7.33% 1898 SSA unimplemented: unhandled expr EQ 6.10% 1579 SSA unimplemented: unhandled expr OROR 4.91% 1271 SSA unimplemented: unhandled expr NE 4.49% 1163 SSA unimplemented: unhandled expr LROT 4.00% 1036 SSA unimplemented: unhandled expr LEN 3.56% 923 SSA unimplemented: unhandled stmt CALLFUNC 2.37% 615 SSA unimplemented: zero for type []byte not implemented 1.90% 492 SSA unimplemented: unhandled stmt CALLMETH 1.74% 450 SSA unimplemented: unhandled expr CALLINTER 1.74% 450 SSA unimplemented: unhandled expr DOT 1.71% 444 SSA unimplemented: unhandled expr ANDAND 1.65% 426 SSA unimplemented: unhandled expr CLOSUREVAR 1.54% 400 SSA unimplemented: unhandled expr CALLMETH 1.51% 390 SSA unimplemented: unhandled stmt SWITCH 1.47% 380 SSA unimplemented: unhandled expr CONV 1.33% 345 SSA unimplemented: addr: bad op * 1.30% 336 SSA unimplemented: unhandled OLITERAL 6 Change-Id: I4ca07951e276714dc13c31de28640aead17a1be7 Reviewed-on: https://go-review.googlesource.com/11160 Reviewed-by: Keith Randall <khr@golang.org>
2015-06-12 11:01:13 -07:00
}
[dev.ssa] cmd/compile: remember names of values For debugging, spill values to named variables instead of autotmp_ variables if possible. We do this by keeping a name -> value map for each function, keep it up-to-date during deadcode elim, and use it to override spill decisions in stackalloc. It might even make stack frames a bit smaller, as it makes it easy to identify a set of spills which are likely not to interfere. This just works for one-word variables for now. Strings/slices will be a separate CL. Change-Id: Ie89eba8cab16bcd41b311c479ec46dd7e64cdb67 Reviewed-on: https://go-review.googlesource.com/16336 Run-TryBot: Keith Randall <khr@golang.org> Reviewed-by: David Chase <drchase@google.com>
2015-10-22 14:22:38 -07:00
[dev.ssa] cmd/compile: default compile+test with SSA Some tests disabled, some bifurcated into _ssa and not, with appropriate logging added to compiler. "tests/live.go" in particular needs attention. SSA-specific testing removed, since it's all SSA now. Added "-run_skips" option to tests/run.go to simplify checking whether a test still fails (or how it fails) on a skipped platform. The compiler now compiles with SSA by default. If you don't want SSA, specify GOSSAHASH=n (or N) as an environment variable. Function names ending in "_ssa" are always SSA-compiled. GOSSAFUNC=fname retains its "SSA for fname, log to ssa.html" GOSSAPKG=pkg only has an effect when GOSSAHASH=n GOSSAHASH=10101 etc retains its name-hash-matching behavior for purposes of debugging. See #13068 Change-Id: I8217bfeb34173533eaeb391b5f6935483c7d6b43 Reviewed-on: https://go-review.googlesource.com/16299 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-26 17:34:06 -04:00
// Warnl reports a "warning", which is usually flag-triggered
// logging output for the benefit of tests.
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Warnl(pos src.XPos, fmt_ string, args ...interface{}) {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
base.WarnfAt(pos, fmt_, args...)
[dev.ssa] cmd/compile: default compile+test with SSA Some tests disabled, some bifurcated into _ssa and not, with appropriate logging added to compiler. "tests/live.go" in particular needs attention. SSA-specific testing removed, since it's all SSA now. Added "-run_skips" option to tests/run.go to simplify checking whether a test still fails (or how it fails) on a skipped platform. The compiler now compiles with SSA by default. If you don't want SSA, specify GOSSAHASH=n (or N) as an environment variable. Function names ending in "_ssa" are always SSA-compiled. GOSSAFUNC=fname retains its "SSA for fname, log to ssa.html" GOSSAPKG=pkg only has an effect when GOSSAHASH=n GOSSAHASH=10101 etc retains its name-hash-matching behavior for purposes of debugging. See #13068 Change-Id: I8217bfeb34173533eaeb391b5f6935483c7d6b43 Reviewed-on: https://go-review.googlesource.com/16299 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-26 17:34:06 -04:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Debug_checknil() bool {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
return base.Debug.Nil != 0
[dev.ssa] cmd/compile: default compile+test with SSA Some tests disabled, some bifurcated into _ssa and not, with appropriate logging added to compiler. "tests/live.go" in particular needs attention. SSA-specific testing removed, since it's all SSA now. Added "-run_skips" option to tests/run.go to simplify checking whether a test still fails (or how it fails) on a skipped platform. The compiler now compiles with SSA by default. If you don't want SSA, specify GOSSAHASH=n (or N) as an environment variable. Function names ending in "_ssa" are always SSA-compiled. GOSSAFUNC=fname retains its "SSA for fname, log to ssa.html" GOSSAPKG=pkg only has an effect when GOSSAHASH=n GOSSAHASH=10101 etc retains its name-hash-matching behavior for purposes of debugging. See #13068 Change-Id: I8217bfeb34173533eaeb391b5f6935483c7d6b43 Reviewed-on: https://go-review.googlesource.com/16299 Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: David Chase <drchase@google.com>
2015-10-26 17:34:06 -04:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) UseWriteBarrier() bool {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
return base.Flag.WB
cmd/compile: move write barrier insertion to SSA When the compiler insert write barriers, the frontend makes conservative decisions at an early stage. This sometimes have false positives because of the lack of information, for example, writes on stack. SSA's writebarrier pass identifies writes on stack and eliminates write barriers for them. This CL moves write barrier insertion into SSA. The frontend no longer makes decisions about write barriers, and simply does normal assignments and emits normal Store ops when building SSA. SSA writebarrier pass inserts write barrier for Stores when needed. There, it has better information about the store because Phi and Copy propagation are done at that time. This CL only changes StoreWB to Store in gc/ssa.go. A followup CL simplifies SSA building code. Updates #17583. Change-Id: I4592d9bc0067503befc169c50b4e6f4765673bec Reviewed-on: https://go-review.googlesource.com/36839 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2017-02-05 23:43:31 -05:00
}
cmd/compile: thread Curfn through SSA This is a first step towards eliminating the Curfn global in the backend. There's more to do. Passes toolstash -cmp. No compiler performance impact. Updates #15756 Change-Id: Ib09f550a001e279a5aeeed0f85698290f890939c Reviewed-on: https://go-review.googlesource.com/38232 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-03-17 07:49:22 -07:00
func (e *ssafn) Syslook(name string) *obj.LSym {
cmd/compile: look up more runtime symbols before SSA begins This avoids concurrent runtime package lookups. Updates #15756 Change-Id: I9e2cbd042aba44923f0d03e6ca5b4eb60fa9e7ea Reviewed-on: https://go-review.googlesource.com/40853 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-04-15 08:00:08 -07:00
switch name {
case "goschedguarded":
return goschedguarded
case "writeBarrier":
return writeBarrier
cmd/compile: compiler support for buffered write barrier This CL implements the compiler support for calling the buffered write barrier added by the previous CL. Since the buffered write barrier is only implemented on amd64 right now, this still supports the old, eager write barrier as well. There's little overhead to supporting both and this way a few tests in test/fixedbugs that expect to have liveness maps at write barrier calls can easily opt-in to the old, eager barrier. This significantly improves the performance of the write barrier: name old time/op new time/op delta WriteBarrier-12 73.5ns ±20% 19.2ns ±27% -73.90% (p=0.000 n=19+18) It also reduces the size of binaries because the write barrier call is more compact: name old object-bytes new object-bytes delta Template 398k ± 0% 393k ± 0% -1.14% (p=0.008 n=5+5) Unicode 208k ± 0% 206k ± 0% -1.00% (p=0.008 n=5+5) GoTypes 1.18M ± 0% 1.15M ± 0% -2.00% (p=0.008 n=5+5) Compiler 4.05M ± 0% 3.88M ± 0% -4.26% (p=0.008 n=5+5) SSA 8.25M ± 0% 8.11M ± 0% -1.59% (p=0.008 n=5+5) Flate 228k ± 0% 224k ± 0% -1.83% (p=0.008 n=5+5) GoParser 295k ± 0% 284k ± 0% -3.62% (p=0.008 n=5+5) Reflect 1.00M ± 0% 0.99M ± 0% -0.70% (p=0.008 n=5+5) Tar 339k ± 0% 333k ± 0% -1.67% (p=0.008 n=5+5) XML 404k ± 0% 395k ± 0% -2.10% (p=0.008 n=5+5) [Geo mean] 704k 690k -2.00% name old exe-bytes new exe-bytes delta HelloSize 1.05M ± 0% 1.04M ± 0% -1.55% (p=0.008 n=5+5) https://perf.golang.org/search?q=upload:20171027.1 (Amusingly, this also reduces compiler allocations by 0.75%, which, combined with the better write barrier, speeds up the compiler overall by 2.10%. See the perf link.) It slightly improves the performance of most of the go1 benchmarks and improves the performance of the x/benchmarks: name old time/op new time/op delta BinaryTree17-12 2.40s ± 1% 2.47s ± 1% +2.69% (p=0.000 n=19+19) Fannkuch11-12 2.95s ± 0% 2.95s ± 0% +0.21% (p=0.000 n=20+19) FmtFprintfEmpty-12 41.8ns ± 4% 41.4ns ± 2% -1.03% (p=0.014 n=20+20) FmtFprintfString-12 68.7ns ± 2% 67.5ns ± 1% -1.75% (p=0.000 n=20+17) FmtFprintfInt-12 79.0ns ± 3% 77.1ns ± 1% -2.40% (p=0.000 n=19+17) FmtFprintfIntInt-12 127ns ± 1% 123ns ± 3% -3.42% (p=0.000 n=20+20) FmtFprintfPrefixedInt-12 152ns ± 1% 150ns ± 1% -1.02% (p=0.000 n=18+17) FmtFprintfFloat-12 211ns ± 1% 209ns ± 0% -0.99% (p=0.000 n=20+16) FmtManyArgs-12 500ns ± 0% 496ns ± 0% -0.73% (p=0.000 n=17+20) GobDecode-12 6.44ms ± 1% 6.53ms ± 0% +1.28% (p=0.000 n=20+19) GobEncode-12 5.46ms ± 0% 5.46ms ± 1% ~ (p=0.550 n=19+20) Gzip-12 220ms ± 1% 216ms ± 0% -1.75% (p=0.000 n=19+19) Gunzip-12 38.8ms ± 0% 38.6ms ± 0% -0.30% (p=0.000 n=18+19) HTTPClientServer-12 79.0µs ± 1% 78.2µs ± 1% -1.01% (p=0.000 n=20+20) JSONEncode-12 11.9ms ± 0% 11.9ms ± 0% -0.29% (p=0.000 n=20+19) JSONDecode-12 52.6ms ± 0% 52.2ms ± 0% -0.68% (p=0.000 n=19+20) Mandelbrot200-12 3.69ms ± 0% 3.68ms ± 0% -0.36% (p=0.000 n=20+20) GoParse-12 3.13ms ± 1% 3.18ms ± 1% +1.67% (p=0.000 n=19+20) RegexpMatchEasy0_32-12 73.2ns ± 1% 72.3ns ± 1% -1.19% (p=0.000 n=19+18) RegexpMatchEasy0_1K-12 241ns ± 0% 239ns ± 0% -0.83% (p=0.000 n=17+16) RegexpMatchEasy1_32-12 68.6ns ± 1% 69.0ns ± 1% +0.47% (p=0.015 n=18+16) RegexpMatchEasy1_1K-12 364ns ± 0% 361ns ± 0% -0.67% (p=0.000 n=16+17) RegexpMatchMedium_32-12 104ns ± 1% 103ns ± 1% -0.79% (p=0.001 n=20+15) RegexpMatchMedium_1K-12 33.8µs ± 3% 34.0µs ± 2% ~ (p=0.267 n=20+19) RegexpMatchHard_32-12 1.64µs ± 1% 1.62µs ± 2% -1.25% (p=0.000 n=19+18) RegexpMatchHard_1K-12 49.2µs ± 0% 48.7µs ± 1% -0.93% (p=0.000 n=19+18) Revcomp-12 391ms ± 5% 396ms ± 7% ~ (p=0.154 n=19+19) Template-12 63.1ms ± 0% 59.5ms ± 0% -5.76% (p=0.000 n=18+19) TimeParse-12 307ns ± 0% 306ns ± 0% -0.39% (p=0.000 n=19+17) TimeFormat-12 325ns ± 0% 323ns ± 0% -0.50% (p=0.000 n=19+19) [Geo mean] 47.3µs 46.9µs -0.67% https://perf.golang.org/search?q=upload:20171026.1 name old time/op new time/op delta Garbage/benchmem-MB=64-12 2.25ms ± 1% 2.20ms ± 1% -2.31% (p=0.000 n=18+18) HTTP-12 12.6µs ± 0% 12.6µs ± 0% -0.72% (p=0.000 n=18+17) JSON-12 11.0ms ± 0% 11.0ms ± 1% -0.68% (p=0.000 n=17+19) https://perf.golang.org/search?q=upload:20171026.2 Updates #14951. Updates #22460. Change-Id: Id4c0932890a1d41020071bec73b8522b1367d3e7 Reviewed-on: https://go-review.googlesource.com/73712 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2017-10-26 12:33:04 -04:00
case "gcWriteBarrier":
return gcWriteBarrier
cmd/compile: look up more runtime symbols before SSA begins This avoids concurrent runtime package lookups. Updates #15756 Change-Id: I9e2cbd042aba44923f0d03e6ca5b4eb60fa9e7ea Reviewed-on: https://go-review.googlesource.com/40853 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-04-15 08:00:08 -07:00
case "typedmemmove":
return typedmemmove
case "typedmemclr":
return typedmemclr
}
cmd/compile: eliminate usage of global Fatalf in ssa.go state and ssafn both have their own Fatalf, so use them instead of global Fatalf. Updates #19683 Change-Id: Ie02a961d4285ab0a3f3b8d889a5b498d926ed567 Reviewed-on: https://go-review.googlesource.com/c/go/+/188539 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2019-08-02 15:24:54 +07:00
e.Fatalf(src.NoXPos, "unknown Syslook func %v", name)
cmd/compile: look up more runtime symbols before SSA begins This avoids concurrent runtime package lookups. Updates #15756 Change-Id: I9e2cbd042aba44923f0d03e6ca5b4eb60fa9e7ea Reviewed-on: https://go-review.googlesource.com/40853 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
2017-04-15 08:00:08 -07:00
return nil
cmd/compile: add a writebarrier phase in SSA When the compiler insert write barriers, the frontend makes conservative decisions at an early stage. This may have false positives which result in write barriers for stack writes. A new phase, writebarrier, is added to the SSA backend, to delay the decision and eliminate false positives. The frontend still makes conservative decisions. When building SSA, instead of emitting runtime calls directly, it emits WB ops (StoreWB, MoveWB, etc.), which will be expanded to branches and runtime calls in writebarrier phase. Writes to static locations on stack are detected and write barriers are removed. All write barriers of stack writes found by the script from issue #17330 are eliminated (except two false positives). Fixes #17330. Change-Id: I9bd66333da9d0ceb64dcaa3c6f33502798d1a0f8 Reviewed-on: https://go-review.googlesource.com/31131 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: David Chase <drchase@google.com> Reviewed-by: Keith Randall <khr@golang.org>
2016-10-13 06:57:00 -04:00
}
cmd/compile: report typedslicecopy write barriers Most write barrier calls are inserted by SSA, but copy and append are lowered to runtime.typedslicecopy during walk. Fix these to set Func.WBPos and emit the "write barrier" warning, as done for the write barriers inserted by SSA. As part of this, we refactor setting WBPos and emitting this warning into the frontend so it can be shared by both walk and SSA. Change-Id: I5fe9997d9bdb55e03e01dd58aee28908c35f606b Reviewed-on: https://go-review.googlesource.com/73411 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-24 17:10:02 -04:00
func (e *ssafn) SetWBPos(pos src.XPos) {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
e.curfn.Func().SetWBPos(pos)
cmd/compile: report typedslicecopy write barriers Most write barrier calls are inserted by SSA, but copy and append are lowered to runtime.typedslicecopy during walk. Fix these to set Func.WBPos and emit the "write barrier" warning, as done for the write barriers inserted by SSA. As part of this, we refactor setting WBPos and emitting this warning into the frontend so it can be shared by both walk and SSA. Change-Id: I5fe9997d9bdb55e03e01dd58aee28908c35f606b Reviewed-on: https://go-review.googlesource.com/73411 Run-TryBot: Austin Clements <austin@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-24 17:10:02 -04:00
}
cmd/compile: make GOSSAHASH package-sensitive, also append to log files Turns out if your failure is in a function with a name like "Reset()" there will be a lot of hits on the same hashcode. Adding package sensitivity solves this problem. In additionm, it turned out that in the case that a logfile was specified for the GOSSAHASH logging, that it was opened in create mode, which meant that multiple compiler invocations would reset the file to zero length. Opening in append mode works better; the automated harness (github.com/dr2chase/gossahash) takes care of truncating the file before use. Change-Id: I5601bc280faa94cbd507d302448831849db6c842 Reviewed-on: https://go-review.googlesource.com/c/go/+/246937 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-08-05 10:26:57 -04:00
func (e *ssafn) MyImportPath() string {
[dev.regabi] cmd/compile: introduce cmd/compile/internal/base [generated] Move Flag, Debug, Ctxt, Exit, and error messages to new package cmd/compile/internal/base. These are the core functionality that everything in gc uses and which otherwise prevent splitting any other code out of gc into different packages. A minor milestone: the compiler source code no longer contains the string "yy". [git-generate] cd src/cmd/compile/internal/gc rf ' mv atExit AtExit mv Ctxt atExitFuncs AtExit Exit base.go mv lineno Pos mv linestr FmtPos mv flusherrors FlushErrors mv yyerror Errorf mv yyerrorl ErrorfAt mv yyerrorv ErrorfVers mv noder.yyerrorpos noder.errorAt mv Warnl WarnfAt mv errorexit ErrorExit mv base.go debug.go flag.go print.go cmd/compile/internal/base ' : # update comments sed -i '' 's/yyerrorl/ErrorfAt/g; s/yyerror/Errorf/g' *.go : # bootstrap.go is not built by default so invisible to rf sed -i '' 's/Fatalf/base.Fatalf/' bootstrap.go goimports -w bootstrap.go : # update cmd/dist to add internal/base cd ../../../dist sed -i '' '/internal.amd64/a\ "cmd/compile/internal/base", ' buildtool.go gofmt -w buildtool.go Change-Id: I59903c7084222d6eaee38823fd222159ba24a31a Reviewed-on: https://go-review.googlesource.com/c/go/+/272250 Trust: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-19 20:49:23 -05:00
return base.Ctxt.Pkgpath
cmd/compile: make GOSSAHASH package-sensitive, also append to log files Turns out if your failure is in a function with a name like "Reset()" there will be a lot of hits on the same hashcode. Adding package sensitivity solves this problem. In additionm, it turned out that in the case that a logfile was specified for the GOSSAHASH logging, that it was opened in create mode, which meant that multiple compiler invocations would reset the file to zero length. Opening in append mode works better; the automated harness (github.com/dr2chase/gossahash) takes care of truncating the file before use. Change-Id: I5601bc280faa94cbd507d302448831849db6c842 Reviewed-on: https://go-review.googlesource.com/c/go/+/246937 Run-TryBot: David Chase <drchase@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
2020-08-05 10:26:57 -04:00
}
[dev.regabi] cmd/compile: replace *Node type with an interface Node [generated] The plan is to introduce a Node interface that replaces the old *Node pointer-to-struct. The previous CL defined an interface INode modeling a *Node. This CL: - Changes all references outside internal/ir to use INode, along with many references inside internal/ir as well. - Renames Node to node. - Renames INode to Node So now ir.Node is an interface implemented by *ir.node, which is otherwise inaccessible, and the code outside package ir is now (clearly) using only the interface. The usual rule is never to redefine an existing name with a new meaning, so that old code that hasn't been updated gets a "unknown name" error instead of more mysterious errors or silent misbehavior. That rule would caution against replacing Node-the-struct with Node-the-interface, as in this CL, because code that says *Node would now be using a pointer to an interface. But this CL is being landed at the same time as another that moves Node from gc to ir. So the net effect is to replace *gc.Node with ir.Node, which does follow the rule: any lingering references to gc.Node will be told it's gone, not silently start using pointers to interfaces. So the rule is followed by the CL sequence, just not this specific CL. Overall, the loss of inlining caused by using interfaces cuts the compiler speed by about 6%, a not insignificant amount. However, as we convert the representation to concrete structs that are not the giant Node over the next weeks, that speed should come back as more of the compiler starts operating directly on concrete types and the memory taken up by the graph of Nodes drops due to the more precise structs. Honestly, I was expecting worse. % benchstat bench.old bench.new name old time/op new time/op delta Template 168ms ± 4% 182ms ± 2% +8.34% (p=0.000 n=9+9) Unicode 72.2ms ±10% 82.5ms ± 6% +14.38% (p=0.000 n=9+9) GoTypes 563ms ± 8% 598ms ± 2% +6.14% (p=0.006 n=9+9) Compiler 2.89s ± 4% 3.04s ± 2% +5.37% (p=0.000 n=10+9) SSA 6.45s ± 4% 7.25s ± 5% +12.41% (p=0.000 n=9+10) Flate 105ms ± 2% 115ms ± 1% +9.66% (p=0.000 n=10+8) GoParser 144ms ±10% 152ms ± 2% +5.79% (p=0.011 n=9+8) Reflect 345ms ± 9% 370ms ± 4% +7.28% (p=0.001 n=10+9) Tar 149ms ± 9% 161ms ± 5% +8.05% (p=0.001 n=10+9) XML 190ms ± 3% 209ms ± 2% +9.54% (p=0.000 n=9+8) LinkCompiler 327ms ± 2% 325ms ± 2% ~ (p=0.382 n=8+8) ExternalLinkCompiler 1.77s ± 4% 1.73s ± 6% ~ (p=0.113 n=9+10) LinkWithoutDebugCompiler 214ms ± 4% 211ms ± 2% ~ (p=0.360 n=10+8) StdCmd 14.8s ± 3% 15.9s ± 1% +6.98% (p=0.000 n=10+9) [Geo mean] 480ms 510ms +6.31% name old user-time/op new user-time/op delta Template 223ms ± 3% 237ms ± 3% +6.16% (p=0.000 n=9+10) Unicode 103ms ± 6% 113ms ± 3% +9.53% (p=0.000 n=9+9) GoTypes 758ms ± 8% 800ms ± 2% +5.55% (p=0.003 n=10+9) Compiler 3.95s ± 2% 4.12s ± 2% +4.34% (p=0.000 n=10+9) SSA 9.43s ± 1% 9.74s ± 4% +3.25% (p=0.000 n=8+10) Flate 132ms ± 2% 141ms ± 2% +6.89% (p=0.000 n=9+9) GoParser 177ms ± 9% 183ms ± 4% ~ (p=0.050 n=9+9) Reflect 467ms ±10% 495ms ± 7% +6.17% (p=0.029 n=10+10) Tar 183ms ± 9% 197ms ± 5% +7.92% (p=0.001 n=10+10) XML 249ms ± 5% 268ms ± 4% +7.82% (p=0.000 n=10+9) LinkCompiler 544ms ± 5% 544ms ± 6% ~ (p=0.863 n=9+9) ExternalLinkCompiler 1.79s ± 4% 1.75s ± 6% ~ (p=0.075 n=10+10) LinkWithoutDebugCompiler 248ms ± 6% 246ms ± 2% ~ (p=0.965 n=10+8) [Geo mean] 483ms 504ms +4.41% [git-generate] cd src/cmd/compile/internal/ir : # We need to do the conversion in multiple steps, so we introduce : # a temporary type alias that will start out meaning the pointer-to-struct : # and then change to mean the interface. rf ' mv Node OldNode add node.go \ type Node = *OldNode ' : # It should work to do this ex in ir, but it misses test files, due to a bug in rf. : # Run the command in gc to handle gc's tests, and then again in ssa for ssa's tests. cd ../gc rf ' ex . ../arm ../riscv64 ../arm64 ../mips64 ../ppc64 ../mips ../wasm { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' cd ../ssa rf ' ex { import "cmd/compile/internal/ir" *ir.OldNode -> ir.Node } ' : # Back in ir, finish conversion clumsily with sed, : # because type checking and circular aliases do not mix. cd ../ir sed -i '' ' /type Node = \*OldNode/d s/\*OldNode/Node/g s/^func (n Node)/func (n *OldNode)/ s/OldNode/node/g s/type INode interface/type Node interface/ s/var _ INode = (Node)(nil)/var _ Node = (*node)(nil)/ ' *.go gofmt -w *.go sed -i '' ' s/{Func{}, 136, 248}/{Func{}, 152, 280}/ s/{Name{}, 32, 56}/{Name{}, 44, 80}/ s/{Param{}, 24, 48}/{Param{}, 44, 88}/ s/{node{}, 76, 128}/{node{}, 88, 152}/ ' sizeof_test.go cd ../ssa sed -i '' ' s/{LocalSlot{}, 28, 40}/{LocalSlot{}, 32, 48}/ ' sizeof_test.go cd ../gc sed -i '' 's/\*ir.Node/ir.Node/' mkbuiltin.go cd ../../../.. go install std cmd cd cmd/compile go test -u || go test -u Change-Id: I196bbe3b648e4701662e4a2bada40bf155e2a553 Reviewed-on: https://go-review.googlesource.com/c/go/+/272935 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-25 01:11:56 -05:00
func clobberBase(n ir.Node) ir.Node {
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.ODOT && n.Left().Type().NumFields() == 1 {
return clobberBase(n.Left())
cmd/compile: extend ssa.go to handle 1-element array and 1-field struct Assinging to 1-element array/1-field struct variable is considered clobbering the whole variable. By emitting OpVarDef in this case, liveness analysis can now know the variable is redefined. Also, the isfat is not necessary anymore, and will be removed in follow up CL. Fixes #33916 Change-Id: Iece0d90b05273f333d59d6ee5b12ee7dc71908c2 Reviewed-on: https://go-review.googlesource.com/c/go/+/192979 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-09-03 23:24:35 +07:00
}
[dev.regabi] cmd/compile: use Node getters and setters [generated] Now that we have all the getters and setters defined, use them and unexport all the actual Node fields. This is the next step toward replacing Node with an interface. [git-generate] cd src/cmd/compile/internal/gc rf ' ex . ../ir ../ssa { import "cmd/compile/internal/ir" import "cmd/compile/internal/types" import "cmd/internal/src" var n, x *ir.Node var op ir.Op var t *types.Type var f *ir.Func var m *ir.Name var s *types.Sym var p src.XPos var i int64 var e uint16 var nodes ir.Nodes n.Op = op -> n.SetOp(op) n.Left = x -> n.SetLeft(x) n.Right = x -> n.SetRight(x) n.Orig = x -> n.SetOrig(x) n.Type = t -> n.SetType(t) n.Func = f -> n.SetFunc(f) n.Name = m -> n.SetName(m) n.Sym = s -> n.SetSym(s) n.Pos = p -> n.SetPos(p) n.Xoffset = i -> n.SetXoffset(i) n.Esc = e -> n.SetEsc(e) n.Ninit.Append -> n.PtrNinit().Append n.Ninit.AppendNodes -> n.PtrNinit().AppendNodes n.Ninit.MoveNodes -> n.PtrNinit().MoveNodes n.Ninit.Prepend -> n.PtrNinit().Prepend n.Ninit.Set -> n.PtrNinit().Set n.Ninit.Set1 -> n.PtrNinit().Set1 n.Ninit.Set2 -> n.PtrNinit().Set2 n.Ninit.Set3 -> n.PtrNinit().Set3 &n.Ninit -> n.PtrNinit() n.Ninit = nodes -> n.SetNinit(nodes) n.Nbody.Append -> n.PtrNbody().Append n.Nbody.AppendNodes -> n.PtrNbody().AppendNodes n.Nbody.MoveNodes -> n.PtrNbody().MoveNodes n.Nbody.Prepend -> n.PtrNbody().Prepend n.Nbody.Set -> n.PtrNbody().Set n.Nbody.Set1 -> n.PtrNbody().Set1 n.Nbody.Set2 -> n.PtrNbody().Set2 n.Nbody.Set3 -> n.PtrNbody().Set3 &n.Nbody -> n.PtrNbody() n.Nbody = nodes -> n.SetNbody(nodes) n.List.Append -> n.PtrList().Append n.List.AppendNodes -> n.PtrList().AppendNodes n.List.MoveNodes -> n.PtrList().MoveNodes n.List.Prepend -> n.PtrList().Prepend n.List.Set -> n.PtrList().Set n.List.Set1 -> n.PtrList().Set1 n.List.Set2 -> n.PtrList().Set2 n.List.Set3 -> n.PtrList().Set3 &n.List -> n.PtrList() n.List = nodes -> n.SetList(nodes) n.Rlist.Append -> n.PtrRlist().Append n.Rlist.AppendNodes -> n.PtrRlist().AppendNodes n.Rlist.MoveNodes -> n.PtrRlist().MoveNodes n.Rlist.Prepend -> n.PtrRlist().Prepend n.Rlist.Set -> n.PtrRlist().Set n.Rlist.Set1 -> n.PtrRlist().Set1 n.Rlist.Set2 -> n.PtrRlist().Set2 n.Rlist.Set3 -> n.PtrRlist().Set3 &n.Rlist -> n.PtrRlist() n.Rlist = nodes -> n.SetRlist(nodes) } ex . ../ir ../ssa { import "cmd/compile/internal/ir" var n *ir.Node n.Op -> n.GetOp() n.Left -> n.GetLeft() n.Right -> n.GetRight() n.Orig -> n.GetOrig() n.Type -> n.GetType() n.Func -> n.GetFunc() n.Name -> n.GetName() n.Sym -> n.GetSym() n.Pos -> n.GetPos() n.Xoffset -> n.GetXoffset() n.Esc -> n.GetEsc() avoid (*ir.Node).PtrNinit avoid (*ir.Node).PtrNbody avoid (*ir.Node).PtrList avoid (*ir.Node).PtrRlist n.Ninit -> n.GetNinit() n.Nbody -> n.GetNbody() n.List -> n.GetList() n.Rlist -> n.GetRlist() } ' cd ../ir rf ' mv Node.Op Node.op mv Node.GetOp Node.Op mv Node.Left Node.left mv Node.GetLeft Node.Left mv Node.Right Node.right mv Node.GetRight Node.Right mv Node.Orig Node.orig mv Node.GetOrig Node.Orig mv Node.Type Node.typ mv Node.GetType Node.Type mv Node.Func Node.fn mv Node.GetFunc Node.Func mv Node.Name Node.name mv Node.GetName Node.Name # All uses are in other Node methods already. mv Node.E Node.e mv Node.Sym Node.sym mv Node.GetSym Node.Sym mv Node.Pos Node.pos mv Node.GetPos Node.Pos mv Node.Esc Node.esc mv Node.GetEsc Node.Esc # While we are here, rename Xoffset to more idiomatic Offset. mv Node.Xoffset Node.offset mv Node.GetXoffset Node.Offset mv Node.SetXoffset Node.SetOffset # While we are here, rename Ninit, Nbody to more idiomatic Init, Body. mv Node.Ninit Node.init mv Node.GetNinit Node.Init mv Node.PtrNinit Node.PtrInit mv Node.SetNinit Node.SetInit mv Node.Nbody Node.body mv Node.GetNbody Node.Body mv Node.PtrNbody Node.PtrBody mv Node.SetNbody Node.SetBody mv Node.List Node.list mv Node.GetList Node.List mv Node.Rlist Node.rlist mv Node.GetRlist Node.Rlist # Unexport these mv Node.SetHasOpt Node.setHasOpt mv Node.SetHasVal Node.setHasVal ' Change-Id: I9894f633375c5237a29b6d6d7b89ba181b56ca3a Reviewed-on: https://go-review.googlesource.com/c/go/+/273009 Trust: Russ Cox <rsc@golang.org> Run-TryBot: Russ Cox <rsc@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2020-11-22 09:59:15 -05:00
if n.Op() == ir.OINDEX && n.Left().Type().IsArray() && n.Left().Type().NumElem() == 1 {
return clobberBase(n.Left())
cmd/compile: extend ssa.go to handle 1-element array and 1-field struct Assinging to 1-element array/1-field struct variable is considered clobbering the whole variable. By emitting OpVarDef in this case, liveness analysis can now know the variable is redefined. Also, the isfat is not necessary anymore, and will be removed in follow up CL. Fixes #33916 Change-Id: Iece0d90b05273f333d59d6ee5b12ee7dc71908c2 Reviewed-on: https://go-review.googlesource.com/c/go/+/192979 Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2019-09-03 23:24:35 +07:00
}
return n
}
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