зеркало из https://github.com/golang/tools.git
401 строка
11 KiB
Go
401 строка
11 KiB
Go
// Copyright 2014 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 eg
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// This file defines the AST rewriting pass.
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// Most of it was plundered directly from
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// $GOROOT/src/cmd/gofmt/rewrite.go (after convergent evolution).
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import (
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"fmt"
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"go/ast"
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"go/token"
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"go/types"
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"os"
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"reflect"
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"sort"
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"strconv"
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"strings"
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"golang.org/x/tools/go/ast/astutil"
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)
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// transformItem takes a reflect.Value representing a variable of type ast.Node
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// transforms its child elements recursively with apply, and then transforms the
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// actual element if it contains an expression.
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func (tr *Transformer) transformItem(rv reflect.Value) (reflect.Value, bool, map[string]ast.Expr) {
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// don't bother if val is invalid to start with
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if !rv.IsValid() {
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return reflect.Value{}, false, nil
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}
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rv, changed, newEnv := tr.apply(tr.transformItem, rv)
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e := rvToExpr(rv)
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if e == nil {
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return rv, changed, newEnv
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}
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savedEnv := tr.env
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tr.env = make(map[string]ast.Expr) // inefficient! Use a slice of k/v pairs
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if tr.matchExpr(tr.before, e) {
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if tr.verbose {
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fmt.Fprintf(os.Stderr, "%s matches %s",
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astString(tr.fset, tr.before), astString(tr.fset, e))
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if len(tr.env) > 0 {
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fmt.Fprintf(os.Stderr, " with:")
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for name, ast := range tr.env {
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fmt.Fprintf(os.Stderr, " %s->%s",
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name, astString(tr.fset, ast))
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}
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}
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fmt.Fprintf(os.Stderr, "\n")
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}
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tr.nsubsts++
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// Clone the replacement tree, performing parameter substitution.
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// We update all positions to n.Pos() to aid comment placement.
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rv = tr.subst(tr.env, reflect.ValueOf(tr.after),
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reflect.ValueOf(e.Pos()))
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changed = true
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newEnv = tr.env
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}
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tr.env = savedEnv
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return rv, changed, newEnv
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}
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// Transform applies the transformation to the specified parsed file,
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// whose type information is supplied in info, and returns the number
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// of replacements that were made.
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//
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// It mutates the AST in place (the identity of the root node is
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// unchanged), and may add nodes for which no type information is
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// available in info.
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//
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// Derived from rewriteFile in $GOROOT/src/cmd/gofmt/rewrite.go.
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func (tr *Transformer) Transform(info *types.Info, pkg *types.Package, file *ast.File) int {
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if !tr.seenInfos[info] {
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tr.seenInfos[info] = true
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mergeTypeInfo(tr.info, info)
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}
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tr.currentPkg = pkg
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tr.nsubsts = 0
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if tr.verbose {
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fmt.Fprintf(os.Stderr, "before: %s\n", astString(tr.fset, tr.before))
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fmt.Fprintf(os.Stderr, "after: %s\n", astString(tr.fset, tr.after))
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fmt.Fprintf(os.Stderr, "afterStmts: %s\n", tr.afterStmts)
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}
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o, changed, _ := tr.apply(tr.transformItem, reflect.ValueOf(file))
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if changed {
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panic("BUG")
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}
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file2 := o.Interface().(*ast.File)
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// By construction, the root node is unchanged.
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if file != file2 {
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panic("BUG")
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}
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// Add any necessary imports.
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// TODO(adonovan): remove no-longer needed imports too.
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if tr.nsubsts > 0 {
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pkgs := make(map[string]*types.Package)
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for obj := range tr.importedObjs {
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pkgs[obj.Pkg().Path()] = obj.Pkg()
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}
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for _, imp := range file.Imports {
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path, _ := strconv.Unquote(imp.Path.Value)
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delete(pkgs, path)
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}
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delete(pkgs, pkg.Path()) // don't import self
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// NB: AddImport may completely replace the AST!
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// It thus renders info and tr.info no longer relevant to file.
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var paths []string
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for path := range pkgs {
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paths = append(paths, path)
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}
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sort.Strings(paths)
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for _, path := range paths {
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astutil.AddImport(tr.fset, file, path)
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}
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}
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tr.currentPkg = nil
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return tr.nsubsts
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}
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// setValue is a wrapper for x.SetValue(y); it protects
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// the caller from panics if x cannot be changed to y.
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func setValue(x, y reflect.Value) {
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// don't bother if y is invalid to start with
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if !y.IsValid() {
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return
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}
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defer func() {
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if x := recover(); x != nil {
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if s, ok := x.(string); ok &&
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(strings.Contains(s, "type mismatch") || strings.Contains(s, "not assignable")) {
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// x cannot be set to y - ignore this rewrite
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return
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}
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panic(x)
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}
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}()
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x.Set(y)
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}
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// Values/types for special cases.
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var (
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objectPtrNil = reflect.ValueOf((*ast.Object)(nil))
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scopePtrNil = reflect.ValueOf((*ast.Scope)(nil))
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identType = reflect.TypeOf((*ast.Ident)(nil))
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selectorExprType = reflect.TypeOf((*ast.SelectorExpr)(nil))
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objectPtrType = reflect.TypeOf((*ast.Object)(nil))
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statementType = reflect.TypeOf((*ast.Stmt)(nil)).Elem()
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positionType = reflect.TypeOf(token.NoPos)
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scopePtrType = reflect.TypeOf((*ast.Scope)(nil))
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)
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// apply replaces each AST field x in val with f(x), returning val.
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// To avoid extra conversions, f operates on the reflect.Value form.
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// f takes a reflect.Value representing the variable to modify of type ast.Node.
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// It returns a reflect.Value containing the transformed value of type ast.Node,
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// whether any change was made, and a map of identifiers to ast.Expr (so we can
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// do contextually correct substitutions in the parent statements).
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func (tr *Transformer) apply(f func(reflect.Value) (reflect.Value, bool, map[string]ast.Expr), val reflect.Value) (reflect.Value, bool, map[string]ast.Expr) {
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if !val.IsValid() {
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return reflect.Value{}, false, nil
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}
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// *ast.Objects introduce cycles and are likely incorrect after
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// rewrite; don't follow them but replace with nil instead
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if val.Type() == objectPtrType {
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return objectPtrNil, false, nil
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}
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// similarly for scopes: they are likely incorrect after a rewrite;
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// replace them with nil
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if val.Type() == scopePtrType {
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return scopePtrNil, false, nil
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}
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switch v := reflect.Indirect(val); v.Kind() {
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case reflect.Slice:
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// no possible rewriting of statements.
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if v.Type().Elem() != statementType {
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changed := false
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var envp map[string]ast.Expr
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for i := 0; i < v.Len(); i++ {
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e := v.Index(i)
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o, localchanged, env := f(e)
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if localchanged {
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changed = true
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// we clobber envp here,
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// which means if we have two successive
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// replacements inside the same statement
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// we will only generate the setup for one of them.
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envp = env
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}
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setValue(e, o)
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}
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return val, changed, envp
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}
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// statements are rewritten.
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var out []ast.Stmt
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for i := 0; i < v.Len(); i++ {
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e := v.Index(i)
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o, changed, env := f(e)
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if changed {
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for _, s := range tr.afterStmts {
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t := tr.subst(env, reflect.ValueOf(s), reflect.Value{}).Interface()
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out = append(out, t.(ast.Stmt))
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}
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}
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setValue(e, o)
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out = append(out, e.Interface().(ast.Stmt))
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}
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return reflect.ValueOf(out), false, nil
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case reflect.Struct:
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changed := false
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var envp map[string]ast.Expr
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for i := 0; i < v.NumField(); i++ {
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e := v.Field(i)
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o, localchanged, env := f(e)
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if localchanged {
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changed = true
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envp = env
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}
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setValue(e, o)
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}
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return val, changed, envp
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case reflect.Interface:
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e := v.Elem()
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o, changed, env := f(e)
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setValue(v, o)
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return val, changed, env
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}
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return val, false, nil
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}
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// subst returns a copy of (replacement) pattern with values from env
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// substituted in place of wildcards and pos used as the position of
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// tokens from the pattern. if env == nil, subst returns a copy of
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// pattern and doesn't change the line number information.
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func (tr *Transformer) subst(env map[string]ast.Expr, pattern, pos reflect.Value) reflect.Value {
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if !pattern.IsValid() {
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return reflect.Value{}
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}
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// *ast.Objects introduce cycles and are likely incorrect after
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// rewrite; don't follow them but replace with nil instead
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if pattern.Type() == objectPtrType {
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return objectPtrNil
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}
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// similarly for scopes: they are likely incorrect after a rewrite;
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// replace them with nil
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if pattern.Type() == scopePtrType {
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return scopePtrNil
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}
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// Wildcard gets replaced with map value.
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if env != nil && pattern.Type() == identType {
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id := pattern.Interface().(*ast.Ident)
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if old, ok := env[id.Name]; ok {
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return tr.subst(nil, reflect.ValueOf(old), reflect.Value{})
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}
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}
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// Emit qualified identifiers in the pattern by appropriate
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// (possibly qualified) identifier in the input.
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//
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// The template cannot contain dot imports, so all identifiers
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// for imported objects are explicitly qualified.
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//
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// We assume (unsoundly) that there are no dot or named
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// imports in the input code, nor are any imported package
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// names shadowed, so the usual normal qualified identifier
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// syntax may be used.
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// TODO(adonovan): fix: avoid this assumption.
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//
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// A refactoring may be applied to a package referenced by the
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// template. Objects belonging to the current package are
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// denoted by unqualified identifiers.
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//
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if tr.importedObjs != nil && pattern.Type() == selectorExprType {
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obj := isRef(pattern.Interface().(*ast.SelectorExpr), tr.info)
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if obj != nil {
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if sel, ok := tr.importedObjs[obj]; ok {
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var id ast.Expr
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if obj.Pkg() == tr.currentPkg {
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id = sel.Sel // unqualified
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} else {
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id = sel // pkg-qualified
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}
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// Return a clone of id.
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saved := tr.importedObjs
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tr.importedObjs = nil // break cycle
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r := tr.subst(nil, reflect.ValueOf(id), pos)
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tr.importedObjs = saved
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return r
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}
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}
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}
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if pos.IsValid() && pattern.Type() == positionType {
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// use new position only if old position was valid in the first place
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if old := pattern.Interface().(token.Pos); !old.IsValid() {
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return pattern
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}
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return pos
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}
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// Otherwise copy.
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switch p := pattern; p.Kind() {
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case reflect.Slice:
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v := reflect.MakeSlice(p.Type(), p.Len(), p.Len())
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for i := 0; i < p.Len(); i++ {
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v.Index(i).Set(tr.subst(env, p.Index(i), pos))
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}
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return v
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case reflect.Struct:
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v := reflect.New(p.Type()).Elem()
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for i := 0; i < p.NumField(); i++ {
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v.Field(i).Set(tr.subst(env, p.Field(i), pos))
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}
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return v
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case reflect.Ptr:
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v := reflect.New(p.Type()).Elem()
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if elem := p.Elem(); elem.IsValid() {
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v.Set(tr.subst(env, elem, pos).Addr())
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}
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// Duplicate type information for duplicated ast.Expr.
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// All ast.Node implementations are *structs,
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// so this case catches them all.
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if e := rvToExpr(v); e != nil {
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updateTypeInfo(tr.info, e, p.Interface().(ast.Expr))
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}
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return v
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case reflect.Interface:
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v := reflect.New(p.Type()).Elem()
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if elem := p.Elem(); elem.IsValid() {
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v.Set(tr.subst(env, elem, pos))
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}
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return v
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}
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return pattern
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}
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// -- utilities -------------------------------------------------------
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func rvToExpr(rv reflect.Value) ast.Expr {
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if rv.CanInterface() {
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if e, ok := rv.Interface().(ast.Expr); ok {
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return e
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}
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}
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return nil
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}
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// updateTypeInfo duplicates type information for the existing AST old
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// so that it also applies to duplicated AST new.
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func updateTypeInfo(info *types.Info, new, old ast.Expr) {
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switch new := new.(type) {
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case *ast.Ident:
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orig := old.(*ast.Ident)
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if obj, ok := info.Defs[orig]; ok {
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info.Defs[new] = obj
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}
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if obj, ok := info.Uses[orig]; ok {
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info.Uses[new] = obj
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}
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case *ast.SelectorExpr:
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orig := old.(*ast.SelectorExpr)
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if sel, ok := info.Selections[orig]; ok {
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info.Selections[new] = sel
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}
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}
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if tv, ok := info.Types[old]; ok {
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info.Types[new] = tv
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}
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}
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