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4c2d66f642
This CL substantially reworks how imported declarations are handled, and fixes a number of issues with dot imports. In particular: 1. It eliminates the stub ir.Name declarations that are created upfront during import-declaration processing, allowing this to be deferred to when the declarations are actually needed. (Eventually, this can be deferred even further so we never have to create ir.Names w/ ONONAME, but this CL is already invasive/subtle enough.) 2. During noding, we now use ir.Idents to represent uses of imported declarations, including of dot-imported declarations. 3. Unused dot imports are now reported after type checking, so that we can correctly distinguish whether composite literal keys are a simple identifier (struct literals) or expressions (array/slice/map literals) and whether it might be a use of a dot-imported declaration. 4. It changes the "redeclared" error messages to report the previous position information in the same style as other compiler error messages that reference other source lines. Passes buildall w/ toolstash -cmp. Fixes #6428. Fixes #43164. Fixes #43167. Updates #42990. Change-Id: I40a0a780ec40daf5700fbc3cfeeb7300e1055981 Reviewed-on: https://go-review.googlesource.com/c/go/+/277713 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Russ Cox <rsc@golang.org> Trust: Matthew Dempsky <mdempsky@google.com>
124 lines
3.6 KiB
Go
124 lines
3.6 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package gc
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import (
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"cmd/compile/internal/base"
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"cmd/compile/internal/ir"
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"cmd/compile/internal/types"
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"cmd/internal/obj"
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)
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// A function named init is a special case.
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// It is called by the initialization before main is run.
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// To make it unique within a package and also uncallable,
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// the name, normally "pkg.init", is altered to "pkg.init.0".
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var renameinitgen int
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// Function collecting autotmps generated during typechecking,
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// to be included in the package-level init function.
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var initTodo = ir.NewFunc(base.Pos)
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func renameinit() *types.Sym {
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s := lookupN("init.", renameinitgen)
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renameinitgen++
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return s
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}
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// List of imported packages, in source code order. See #31636.
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var sourceOrderImports []*types.Pkg
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// fninit makes an initialization record for the package.
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// See runtime/proc.go:initTask for its layout.
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// The 3 tasks for initialization are:
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// 1) Initialize all of the packages the current package depends on.
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// 2) Initialize all the variables that have initializers.
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// 3) Run any init functions.
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func fninit(n []ir.Node) {
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nf := initOrder(n)
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var deps []*obj.LSym // initTask records for packages the current package depends on
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var fns []*obj.LSym // functions to call for package initialization
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// Find imported packages with init tasks.
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for _, pkg := range sourceOrderImports {
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n := resolve(oldname(pkg.Lookup(".inittask")))
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if n.Op() == ir.ONONAME {
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continue
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}
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if n.Op() != ir.ONAME || n.Class() != ir.PEXTERN {
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base.Fatalf("bad inittask: %v", n)
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}
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deps = append(deps, n.Sym().Linksym())
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}
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// Make a function that contains all the initialization statements.
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if len(nf) > 0 {
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base.Pos = nf[0].Pos() // prolog/epilog gets line number of first init stmt
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initializers := lookup("init")
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fn := dclfunc(initializers, ir.NewFuncType(base.Pos, nil, nil, nil))
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for _, dcl := range initTodo.Dcl {
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dcl.Curfn = fn
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}
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fn.Dcl = append(fn.Dcl, initTodo.Dcl...)
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initTodo.Dcl = nil
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fn.PtrBody().Set(nf)
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funcbody()
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typecheckFunc(fn)
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Curfn = fn
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typecheckslice(nf, ctxStmt)
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Curfn = nil
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xtop = append(xtop, fn)
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fns = append(fns, initializers.Linksym())
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}
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if initTodo.Dcl != nil {
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// We only generate temps using initTodo if there
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// are package-scope initialization statements, so
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// something's weird if we get here.
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base.Fatalf("initTodo still has declarations")
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}
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initTodo = nil
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// Record user init functions.
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for i := 0; i < renameinitgen; i++ {
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s := lookupN("init.", i)
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fn := ir.AsNode(s.Def).Name().Defn
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// Skip init functions with empty bodies.
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if fn.Body().Len() == 1 {
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if stmt := fn.Body().First(); stmt.Op() == ir.OBLOCK && stmt.List().Len() == 0 {
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continue
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}
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}
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fns = append(fns, s.Linksym())
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}
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if len(deps) == 0 && len(fns) == 0 && types.LocalPkg.Name != "main" && types.LocalPkg.Name != "runtime" {
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return // nothing to initialize
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}
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// Make an .inittask structure.
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sym := lookup(".inittask")
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nn := NewName(sym)
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nn.SetType(types.Types[types.TUINT8]) // fake type
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nn.SetClass(ir.PEXTERN)
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sym.Def = nn
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exportsym(nn)
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lsym := sym.Linksym()
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ot := 0
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ot = duintptr(lsym, ot, 0) // state: not initialized yet
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ot = duintptr(lsym, ot, uint64(len(deps)))
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ot = duintptr(lsym, ot, uint64(len(fns)))
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for _, d := range deps {
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ot = dsymptr(lsym, ot, d, 0)
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}
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for _, f := range fns {
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ot = dsymptr(lsym, ot, f, 0)
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}
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// An initTask has pointers, but none into the Go heap.
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// It's not quite read only, the state field must be modifiable.
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ggloblsym(lsym, int32(ot), obj.NOPTR)
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}
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