1a2f01efa6
Update the Go library to the 1.10beta1 release. Requires a few changes to the compiler for modifications to the map runtime code, and to handle some nowritebarrier cases in the runtime. Reviewed-on: https://go-review.googlesource.com/86455 gotools/: * Makefile.am (go_cmd_vet_files): New variable. (go_cmd_buildid_files, go_cmd_test2json_files): New variables. (s-zdefaultcc): Change from constants to functions. (noinst_PROGRAMS): Add vet, buildid, and test2json. (cgo$(EXEEXT)): Link against $(LIBGOTOOL). (vet$(EXEEXT)): New target. (buildid$(EXEEXT)): New target. (test2json$(EXEEXT)): New target. (install-exec-local): Install all $(noinst_PROGRAMS). (uninstall-local): Uninstasll all $(noinst_PROGRAMS). (check-go-tool): Depend on $(noinst_PROGRAMS). Copy down objabi.go. (check-runtime): Depend on $(noinst_PROGRAMS). (check-cgo-test, check-carchive-test): Likewise. (check-vet): New target. (check): Depend on check-vet. Look at cmd_vet-testlog. (.PHONY): Add check-vet. * Makefile.in: Rebuild. From-SVN: r256365
247 lines
6.9 KiB
Go
247 lines
6.9 KiB
Go
// Copyright 2013 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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/*
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This file contains the code to check for shadowed variables.
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A shadowed variable is a variable declared in an inner scope
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with the same name and type as a variable in an outer scope,
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and where the outer variable is mentioned after the inner one
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is declared.
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(This definition can be refined; the module generates too many
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false positives and is not yet enabled by default.)
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For example:
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func BadRead(f *os.File, buf []byte) error {
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var err error
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for {
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n, err := f.Read(buf) // shadows the function variable 'err'
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if err != nil {
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break // causes return of wrong value
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}
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foo(buf)
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}
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return err
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}
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*/
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package main
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import (
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"flag"
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"go/ast"
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"go/token"
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"go/types"
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)
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var strictShadowing = flag.Bool("shadowstrict", false, "whether to be strict about shadowing; can be noisy")
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func init() {
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register("shadow",
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"check for shadowed variables (experimental; must be set explicitly)",
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checkShadow,
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assignStmt, genDecl)
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experimental["shadow"] = true
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}
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func checkShadow(f *File, node ast.Node) {
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switch n := node.(type) {
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case *ast.AssignStmt:
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checkShadowAssignment(f, n)
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case *ast.GenDecl:
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checkShadowDecl(f, n)
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}
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}
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// Span stores the minimum range of byte positions in the file in which a
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// given variable (types.Object) is mentioned. It is lexically defined: it spans
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// from the beginning of its first mention to the end of its last mention.
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// A variable is considered shadowed (if *strictShadowing is off) only if the
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// shadowing variable is declared within the span of the shadowed variable.
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// In other words, if a variable is shadowed but not used after the shadowed
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// variable is declared, it is inconsequential and not worth complaining about.
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// This simple check dramatically reduces the nuisance rate for the shadowing
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// check, at least until something cleverer comes along.
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//
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// One wrinkle: A "naked return" is a silent use of a variable that the Span
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// will not capture, but the compilers catch naked returns of shadowed
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// variables so we don't need to.
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//
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// Cases this gets wrong (TODO):
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// - If a for loop's continuation statement mentions a variable redeclared in
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// the block, we should complain about it but don't.
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// - A variable declared inside a function literal can falsely be identified
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// as shadowing a variable in the outer function.
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//
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type Span struct {
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min token.Pos
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max token.Pos
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}
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// contains reports whether the position is inside the span.
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func (s Span) contains(pos token.Pos) bool {
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return s.min <= pos && pos < s.max
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}
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// growSpan expands the span for the object to contain the instance represented
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// by the identifier.
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func (pkg *Package) growSpan(ident *ast.Ident, obj types.Object) {
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if *strictShadowing {
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return // No need
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}
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pos := ident.Pos()
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end := ident.End()
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span, ok := pkg.spans[obj]
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if ok {
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if span.min > pos {
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span.min = pos
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}
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if span.max < end {
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span.max = end
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}
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} else {
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span = Span{pos, end}
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}
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pkg.spans[obj] = span
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}
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// checkShadowAssignment checks for shadowing in a short variable declaration.
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func checkShadowAssignment(f *File, a *ast.AssignStmt) {
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if a.Tok != token.DEFINE {
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return
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}
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if f.idiomaticShortRedecl(a) {
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return
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}
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for _, expr := range a.Lhs {
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ident, ok := expr.(*ast.Ident)
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if !ok {
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f.Badf(expr.Pos(), "invalid AST: short variable declaration of non-identifier")
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return
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}
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checkShadowing(f, ident)
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}
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}
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// idiomaticShortRedecl reports whether this short declaration can be ignored for
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// the purposes of shadowing, that is, that any redeclarations it contains are deliberate.
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func (f *File) idiomaticShortRedecl(a *ast.AssignStmt) bool {
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// Don't complain about deliberate redeclarations of the form
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// i := i
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// Such constructs are idiomatic in range loops to create a new variable
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// for each iteration. Another example is
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// switch n := n.(type)
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if len(a.Rhs) != len(a.Lhs) {
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return false
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}
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// We know it's an assignment, so the LHS must be all identifiers. (We check anyway.)
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for i, expr := range a.Lhs {
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lhs, ok := expr.(*ast.Ident)
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if !ok {
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f.Badf(expr.Pos(), "invalid AST: short variable declaration of non-identifier")
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return true // Don't do any more processing.
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}
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switch rhs := a.Rhs[i].(type) {
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case *ast.Ident:
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if lhs.Name != rhs.Name {
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return false
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}
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case *ast.TypeAssertExpr:
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if id, ok := rhs.X.(*ast.Ident); ok {
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if lhs.Name != id.Name {
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return false
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}
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}
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default:
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return false
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}
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}
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return true
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}
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// idiomaticRedecl reports whether this declaration spec can be ignored for
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// the purposes of shadowing, that is, that any redeclarations it contains are deliberate.
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func (f *File) idiomaticRedecl(d *ast.ValueSpec) bool {
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// Don't complain about deliberate redeclarations of the form
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// var i, j = i, j
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if len(d.Names) != len(d.Values) {
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return false
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}
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for i, lhs := range d.Names {
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if rhs, ok := d.Values[i].(*ast.Ident); ok {
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if lhs.Name != rhs.Name {
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return false
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}
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}
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}
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return true
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}
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// checkShadowDecl checks for shadowing in a general variable declaration.
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func checkShadowDecl(f *File, d *ast.GenDecl) {
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if d.Tok != token.VAR {
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return
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}
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for _, spec := range d.Specs {
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valueSpec, ok := spec.(*ast.ValueSpec)
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if !ok {
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f.Badf(spec.Pos(), "invalid AST: var GenDecl not ValueSpec")
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return
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}
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// Don't complain about deliberate redeclarations of the form
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// var i = i
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if f.idiomaticRedecl(valueSpec) {
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return
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}
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for _, ident := range valueSpec.Names {
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checkShadowing(f, ident)
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}
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}
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}
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// checkShadowing checks whether the identifier shadows an identifier in an outer scope.
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func checkShadowing(f *File, ident *ast.Ident) {
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if ident.Name == "_" {
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// Can't shadow the blank identifier.
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return
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}
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obj := f.pkg.defs[ident]
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if obj == nil {
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return
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}
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// obj.Parent.Parent is the surrounding scope. If we can find another declaration
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// starting from there, we have a shadowed identifier.
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_, shadowed := obj.Parent().Parent().LookupParent(obj.Name(), obj.Pos())
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if shadowed == nil {
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return
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}
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// Don't complain if it's shadowing a universe-declared identifier; that's fine.
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if shadowed.Parent() == types.Universe {
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return
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}
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if *strictShadowing {
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// The shadowed identifier must appear before this one to be an instance of shadowing.
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if shadowed.Pos() > ident.Pos() {
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return
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}
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} else {
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// Don't complain if the span of validity of the shadowed identifier doesn't include
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// the shadowing identifier.
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span, ok := f.pkg.spans[shadowed]
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if !ok {
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f.Badf(ident.Pos(), "internal error: no range for %q", ident.Name)
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return
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}
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if !span.contains(ident.Pos()) {
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return
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}
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}
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// Don't complain if the types differ: that implies the programmer really wants two different things.
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if types.Identical(obj.Type(), shadowed.Type()) {
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f.Badf(ident.Pos(), "declaration of %q shadows declaration at %s", obj.Name(), f.loc(shadowed.Pos()))
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}
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}
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