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Revert "cmd/compile: de-virtualize interface calls"

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This reverts commit 4e0c7c3f61.

Reason for revert: The presence-of-optimization test program is fragile, breaks under noopt, and might break if the Go libraries are tweaked.  It needs to be (re)written without reference to other packages.

Change-Id: I3aaf1ab006a1a255f961a978e9c984341740e3c7
Reviewed-on: https://go-review.googlesource.com/38097
Reviewed-by: Keith Randall <khr@golang.org>
This commit is contained in:
David Chase 2017-03-13 21:09:27 +00:00
parent 118b3fe7bb
commit b59a405656
10 changed files with 17 additions and 259 deletions
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4
src/cmd/compile/internal/gc/main.go
View file

@ -483,11 +483,7 @@ func Main() {
} }
} }
// Just before compilation, compile itabs found on
// the right side of OCONVIFACE so that methods
// can be de-virtualized during compilation.
Curfn = nil Curfn = nil
peekitabs()
// Phase 8: Compile top level functions. // Phase 8: Compile top level functions.
// Don't use range--walk can add functions to xtop. // Don't use range--walk can add functions to xtop.

82
src/cmd/compile/internal/gc/reflect.go
View file

@ -16,15 +16,6 @@ import (
type itabEntry struct { type itabEntry struct {
t, itype *Type t, itype *Type
sym *Sym sym *Sym
// symbol of the itab itself;
// filled in lazily after typecheck
lsym *obj.LSym
// symbols of each method in
// the itab, sorted by byte offset;
// filled in at the same time as lsym
entries []*obj.LSym
} }
type ptabEntry struct { type ptabEntry struct {
@ -424,6 +415,7 @@ func imethods(t *Type) []*Sig {
// Generate the method body, so that compiled // Generate the method body, so that compiled
// code can refer to it. // code can refer to it.
isym := methodsym(method, t, 0) isym := methodsym(method, t, 0)
if !isym.Siggen() { if !isym.Siggen() {
isym.SetSiggen(true) isym.SetSiggen(true)
genwrapper(t, f, isym, 0) genwrapper(t, f, isym, 0)
@ -1387,78 +1379,6 @@ ok:
return s return s
} }
// for each itabEntry, gather the methods on
// the concrete type that implement the interface
func peekitabs() {
for i := range itabs {
tab := &itabs[i]
methods := genfun(tab.t, tab.itype)
if len(methods) == 0 {
continue
}
tab.lsym = Linksym(tab.sym)
tab.entries = methods
}
}
// for the given concrete type and interface
// type, return the (sorted) set of methods
// on the concrete type that implement the interface
func genfun(t, it *Type) []*obj.LSym {
if t == nil || it == nil {
return nil
}
sigs := imethods(it)
methods := methods(t)
out := make([]*obj.LSym, 0, len(sigs))
if len(sigs) == 0 {
return nil
}
// both sigs and methods are sorted by name,
// so we can find the intersect in a single pass
for _, m := range methods {
if m.name == sigs[0].name {
out = append(out, Linksym(m.isym))
sigs = sigs[1:]
if len(sigs) == 0 {
break
}
}
}
return out
}
// itabsym uses the information gathered in
// peekitabs to de-virtualize interface methods.
// Since this is called by the SSA backend, it shouldn't
// generate additional Nodes, Syms, etc.
func itabsym(it *obj.LSym, offset int64) *obj.LSym {
var syms []*obj.LSym
if it == nil {
return nil
}
for i := range itabs {
e := &itabs[i]
if e.lsym == it {
syms = e.entries
break
}
}
if syms == nil {
return nil
}
// keep this arithmetic in sync with *itab layout
methodnum := int((offset - 3*int64(Widthptr) - 8) / int64(Widthptr))
if methodnum >= len(syms) {
return nil
}
return syms[methodnum]
}
func dumptypestructs() { func dumptypestructs() {
// copy types from externdcl list to signatlist // copy types from externdcl list to signatlist
for _, n := range externdcl { for _, n := range externdcl {

4
src/cmd/compile/internal/gc/ssa.go
View file

@ -4967,10 +4967,6 @@ func (e *ssaExport) SplitArray(name ssa.LocalSlot) ssa.LocalSlot {
return ssa.LocalSlot{N: n, Type: et, Off: name.Off} return ssa.LocalSlot{N: n, Type: et, Off: name.Off}
} }
func (e *ssaExport) DerefItab(it *obj.LSym, offset int64) *obj.LSym {
return itabsym(it, offset)
}
// namedAuto returns a new AUTO variable with the given name and type. // namedAuto returns a new AUTO variable with the given name and type.
// These are exposed to the debugger. // These are exposed to the debugger.
func (e *ssaExport) namedAuto(name string, typ ssa.Type) ssa.GCNode { func (e *ssaExport) namedAuto(name string, typ ssa.Type) ssa.GCNode {

10
src/cmd/compile/internal/gc/subr.go
View file

@ -1684,6 +1684,7 @@ func structargs(tl *Type, mustname bool) []*Node {
// rcvr - U // rcvr - U
// method - M func (t T)(), a TFIELD type struct // method - M func (t T)(), a TFIELD type struct
// newnam - the eventual mangled name of this function // newnam - the eventual mangled name of this function
func genwrapper(rcvr *Type, method *Field, newnam *Sym, iface int) { func genwrapper(rcvr *Type, method *Field, newnam *Sym, iface int) {
if false && Debug['r'] != 0 { if false && Debug['r'] != 0 {
fmt.Printf("genwrapper rcvrtype=%v method=%v newnam=%v\n", rcvr, method, newnam) fmt.Printf("genwrapper rcvrtype=%v method=%v newnam=%v\n", rcvr, method, newnam)
@ -1719,7 +1720,6 @@ func genwrapper(rcvr *Type, method *Field, newnam *Sym, iface int) {
fn.Func.Nname = newname(newnam) fn.Func.Nname = newname(newnam)
fn.Func.Nname.Name.Defn = fn fn.Func.Nname.Name.Defn = fn
fn.Func.Nname.Name.Param.Ntype = t fn.Func.Nname.Name.Param.Ntype = t
fn.Func.Nname.Sym.SetExported(true) // prevent export; see closure.go
declare(fn.Func.Nname, PFUNC) declare(fn.Func.Nname, PFUNC)
funchdr(fn) funchdr(fn)
@ -1923,14 +1923,6 @@ func implements(t, iface *Type, m, samename **Field, ptr *int) bool {
} }
} }
// We're going to emit an OCONVIFACE.
// Call itabname so that (t, iface)
// gets added to itabs early, which allows
// us to de-virtualize calls through this
// type/interface pair later. See peekitabs in reflect.go
if isdirectiface(t0) && !iface.IsEmptyInterface() {
itabname(t0, iface)
}
return true return true
} }

6
src/cmd/compile/internal/ssa/config.go
View file

@ -121,12 +121,6 @@ type Frontend interface {
SplitArray(LocalSlot) LocalSlot // array must be length 1 SplitArray(LocalSlot) LocalSlot // array must be length 1
SplitInt64(LocalSlot) (LocalSlot, LocalSlot) // returns (hi, lo) SplitInt64(LocalSlot) (LocalSlot, LocalSlot) // returns (hi, lo)
// DerefItab dereferences an itab function
// entry, given the symbol of the itab and
// the byte offset of the function pointer.
// It may return nil.
DerefItab(sym *obj.LSym, offset int64) *obj.LSym
// Line returns a string describing the given position. // Line returns a string describing the given position.
Line(src.XPos) string Line(src.XPos) string

1
src/cmd/compile/internal/ssa/export_test.go
View file

@ -112,7 +112,6 @@ func (d DummyFrontend) TypeInt() Type { return Ty
func (d DummyFrontend) TypeUintptr() Type { return TypeUInt64 } func (d DummyFrontend) TypeUintptr() Type { return TypeUInt64 }
func (d DummyFrontend) TypeString() Type { panic("unimplemented") } func (d DummyFrontend) TypeString() Type { panic("unimplemented") }
func (d DummyFrontend) TypeBytePtr() Type { return TypeBytePtr } func (d DummyFrontend) TypeBytePtr() Type { return TypeBytePtr }
func (d DummyFrontend) DerefItab(sym *obj.LSym, off int64) *obj.LSym { return nil }
func (d DummyFrontend) CanSSA(t Type) bool { func (d DummyFrontend) CanSSA(t Type) bool {
// There are no un-SSAable types in dummy land. // There are no un-SSAable types in dummy land.

7
src/cmd/compile/internal/ssa/gen/generic.rules
View file

@ -1431,10 +1431,3 @@
&& c == config.ctxt.FixedFrameSize() + config.RegSize // offset of return value && c == config.ctxt.FixedFrameSize() + config.RegSize // offset of return value
&& warnRule(config.Debug_checknil() && v.Pos.Line() > 1, v, "removed nil check") && warnRule(config.Debug_checknil() && v.Pos.Line() > 1, v, "removed nil check")
-> (Invalid) -> (Invalid)
// De-virtualize interface calls into static calls.
// Note that (ITab (IMake)) doesn't get
// rewritten until after the first opt pass,
// so this rule should trigger reliably.
(InterCall [argsize] (Load (OffPtr [off] (ITab (IMake (Addr {itab} (SB)) _))) _) mem) && devirt(v, itab, off) != nil ->
(StaticCall [argsize] {devirt(v, itab, off)} mem)

20
src/cmd/compile/internal/ssa/rewrite.go
View file

@ -5,7 +5,6 @@
package ssa package ssa
import ( import (
"cmd/internal/obj"
"crypto/sha1" "crypto/sha1"
"fmt" "fmt"
"math" "math"
@ -385,25 +384,6 @@ func uaddOvf(a, b int64) bool {
return uint64(a)+uint64(b) < uint64(a) return uint64(a)+uint64(b) < uint64(a)
} }
// de-virtualize an InterCall
// 'sym' is the symbol for the itab
func devirt(v *Value, sym interface{}, offset int64) *obj.LSym {
f := v.Block.Func
ext, ok := sym.(*ExternSymbol)
if !ok {
return nil
}
lsym := f.Config.Frontend().DerefItab(ext.Sym, offset)
if f.pass.debug > 0 {
if lsym != nil {
f.Config.Warnl(v.Pos, "de-virtualizing call")
} else {
f.Config.Warnl(v.Pos, "couldn't de-virtualize call")
}
}
return lsym
}
// isSamePtr reports whether p1 and p2 point to the same address. // isSamePtr reports whether p1 and p2 point to the same address.
func isSamePtr(p1, p2 *Value) bool { func isSamePtr(p1, p2 *Value) bool {
if p1 == p2 { if p1 == p2 {

48
src/cmd/compile/internal/ssa/rewritegeneric.go
View file

@ -124,8 +124,6 @@ func rewriteValuegeneric(v *Value, config *Config) bool {
return rewriteValuegeneric_OpGreater8U(v, config) return rewriteValuegeneric_OpGreater8U(v, config)
case OpIMake: case OpIMake:
return rewriteValuegeneric_OpIMake(v, config) return rewriteValuegeneric_OpIMake(v, config)
case OpInterCall:
return rewriteValuegeneric_OpInterCall(v, config)
case OpIsInBounds: case OpIsInBounds:
return rewriteValuegeneric_OpIsInBounds(v, config) return rewriteValuegeneric_OpIsInBounds(v, config)
case OpIsNonNil: case OpIsNonNil:
@ -5738,52 +5736,6 @@ func rewriteValuegeneric_OpIMake(v *Value, config *Config) bool {
} }
return false return false
} }
func rewriteValuegeneric_OpInterCall(v *Value, config *Config) bool {
b := v.Block
_ = b
// match: (InterCall [argsize] (Load (OffPtr [off] (ITab (IMake (Addr {itab} (SB)) _))) _) mem)
// cond: devirt(v, itab, off) != nil
// result: (StaticCall [argsize] {devirt(v, itab, off)} mem)
for {
argsize := v.AuxInt
v_0 := v.Args[0]
if v_0.Op != OpLoad {
break
}
v_0_0 := v_0.Args[0]
if v_0_0.Op != OpOffPtr {
break
}
off := v_0_0.AuxInt
v_0_0_0 := v_0_0.Args[0]
if v_0_0_0.Op != OpITab {
break
}
v_0_0_0_0 := v_0_0_0.Args[0]
if v_0_0_0_0.Op != OpIMake {
break
}
v_0_0_0_0_0 := v_0_0_0_0.Args[0]
if v_0_0_0_0_0.Op != OpAddr {
break
}
itab := v_0_0_0_0_0.Aux
v_0_0_0_0_0_0 := v_0_0_0_0_0.Args[0]
if v_0_0_0_0_0_0.Op != OpSB {
break
}
mem := v.Args[1]
if !(devirt(v, itab, off) != nil) {
break
}
v.reset(OpStaticCall)
v.AuxInt = argsize
v.Aux = devirt(v, itab, off)
v.AddArg(mem)
return true
}
return false
}
func rewriteValuegeneric_OpIsInBounds(v *Value, config *Config) bool { func rewriteValuegeneric_OpIsInBounds(v *Value, config *Config) bool {
b := v.Block b := v.Block
_ = b _ = b

64
test/devirt.go
View file

@ -1,64 +0,0 @@
// errorcheck -0 -d=ssa/opt/debug=3
package main
import (
"crypto/sha1"
"errors"
"fmt"
"sync"
)
func f0() {
v := errors.New("error string")
_ = v.Error() // ERROR "de-virtualizing call$"
}
func f1() {
h := sha1.New()
buf := make([]byte, 4)
h.Write(buf) // ERROR "de-virtualizing call$"
_ = h.Sum(nil) // ERROR "de-virtualizing call$"
}
func f2() {
// trickier case: make sure we see this is *sync.rlocker
// instead of *sync.RWMutex,
// even though they are the same pointers
var m sync.RWMutex
r := m.RLocker()
// deadlock if the type of 'r' is improperly interpreted
// as *sync.RWMutex
r.Lock() // ERROR "de-virtualizing call$"
m.RLock()
r.Unlock() // ERROR "de-virtualizing call$"
m.RUnlock()
}
type multiword struct{ a, b, c int }
func (m multiword) Error() string { return fmt.Sprintf("%d, %d, %d", m.a, m.b, m.c) }
func f3() {
// can't de-virtualize this one yet;
// it passes through a call to iconvT2I
var err error
err = multiword{1, 2, 3}
if err.Error() != "1, 2, 3" {
panic("bad call")
}
// ... but we can do this one
err = &multiword{1, 2, 3}
if err.Error() != "1, 2, 3" { // ERROR "de-virtualizing call$"
panic("bad call")
}
}
func main() {
f0()
f1()
f2()
f3()
}