mirror of
https://github.com/golang/go
synced 2024-11-18 13:14:47 -07:00
0e041570eb
Change-Id: I8ba368d5036be47b6d64e3576f366eb0301d2d5b Reviewed-on: https://go-review.googlesource.com/32831 Reviewed-by: Robert Griesemer <gri@golang.org>
523 lines
14 KiB
Go
523 lines
14 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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package main
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import (
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"bytes"
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"fmt"
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"go/ast"
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"go/build"
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"go/token"
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"go/types"
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"io"
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"log"
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"sort"
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"strings"
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"sync"
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"golang.org/x/tools/cmd/guru/serial"
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"golang.org/x/tools/go/buildutil"
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"golang.org/x/tools/go/loader"
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"golang.org/x/tools/refactor/importgraph"
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)
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// Referrers reports all identifiers that resolve to the same object
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// as the queried identifier, within any package in the workspace.
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func referrers(q *Query) error {
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fset := token.NewFileSet()
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lconf := loader.Config{Fset: fset, Build: q.Build}
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allowErrors(&lconf)
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if _, err := importQueryPackage(q.Pos, &lconf); err != nil {
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return err
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}
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// Load/parse/type-check the query package.
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lprog, err := lconf.Load()
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if err != nil {
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return err
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}
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qpos, err := parseQueryPos(lprog, q.Pos, false)
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if err != nil {
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return err
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}
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id, _ := qpos.path[0].(*ast.Ident)
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if id == nil {
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return fmt.Errorf("no identifier here")
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}
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obj := qpos.info.ObjectOf(id)
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if obj == nil {
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// Happens for y in "switch y := x.(type)",
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// the package declaration,
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// and unresolved identifiers.
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if _, ok := qpos.path[1].(*ast.File); ok { // package decl?
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return packageReferrers(q, qpos.info.Pkg.Path())
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}
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return fmt.Errorf("no object for identifier: %T", qpos.path[1])
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}
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// Imported package name?
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if pkgname, ok := obj.(*types.PkgName); ok {
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return packageReferrers(q, pkgname.Imported().Path())
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}
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if obj.Pkg() == nil {
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return fmt.Errorf("references to predeclared %q are everywhere!", obj.Name())
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}
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// For a globally accessible object defined in package P, we
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// must load packages that depend on P. Specifically, for a
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// package-level object, we need load only direct importers
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// of P, but for a field or interface method, we must load
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// any package that transitively imports P.
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if global, pkglevel := classify(obj); global {
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// We'll use the the object's position to identify it in the larger program.
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objposn := fset.Position(obj.Pos())
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defpkg := obj.Pkg().Path() // defining package
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return globalReferrers(q, qpos.info.Pkg.Path(), defpkg, objposn, pkglevel)
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}
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q.Output(fset, &referrersInitialResult{
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qinfo: qpos.info,
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obj: obj,
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})
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outputUses(q, fset, usesOf(obj, qpos.info), obj.Pkg())
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return nil // success
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}
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// classify classifies objects by how far
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// we have to look to find references to them.
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func classify(obj types.Object) (global, pkglevel bool) {
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if obj.Exported() {
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if obj.Parent() == nil {
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// selectable object (field or method)
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return true, false
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}
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if obj.Parent() == obj.Pkg().Scope() {
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// lexical object (package-level var/const/func/type)
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return true, true
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}
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}
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// object with unexported named or defined in local scope
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return false, false
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}
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// packageReferrers reports all references to the specified package
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// throughout the workspace.
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func packageReferrers(q *Query, path string) error {
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// Scan the workspace and build the import graph.
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// Ignore broken packages.
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_, rev, _ := importgraph.Build(q.Build)
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// Find the set of packages that directly import the query package.
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// Only those packages need typechecking of function bodies.
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users := rev[path]
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// Load the larger program.
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fset := token.NewFileSet()
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lconf := loader.Config{
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Fset: fset,
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Build: q.Build,
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TypeCheckFuncBodies: func(p string) bool {
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return users[strings.TrimSuffix(p, "_test")]
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},
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}
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allowErrors(&lconf)
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// The importgraph doesn't treat external test packages
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// as separate nodes, so we must use ImportWithTests.
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for path := range users {
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lconf.ImportWithTests(path)
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}
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// Subtle! AfterTypeCheck needs no mutex for qpkg because the
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// topological import order gives us the necessary happens-before edges.
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// TODO(adonovan): what about import cycles?
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var qpkg *types.Package
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// For efficiency, we scan each package for references
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// just after it has been type-checked. The loader calls
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// AfterTypeCheck (concurrently), providing us with a stream of
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// packages.
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lconf.AfterTypeCheck = func(info *loader.PackageInfo, files []*ast.File) {
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// AfterTypeCheck may be called twice for the same package due to augmentation.
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if info.Pkg.Path() == path && qpkg == nil {
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// Found the package of interest.
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qpkg = info.Pkg
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fakepkgname := types.NewPkgName(token.NoPos, qpkg, qpkg.Name(), qpkg)
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q.Output(fset, &referrersInitialResult{
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qinfo: info,
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obj: fakepkgname, // bogus
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})
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}
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// Only inspect packages that directly import the
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// declaring package (and thus were type-checked).
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if lconf.TypeCheckFuncBodies(info.Pkg.Path()) {
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// Find PkgNames that refer to qpkg.
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// TODO(adonovan): perhaps more useful would be to show imports
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// of the package instead of qualified identifiers.
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var refs []*ast.Ident
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for id, obj := range info.Uses {
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if obj, ok := obj.(*types.PkgName); ok && obj.Imported() == qpkg {
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refs = append(refs, id)
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}
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}
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outputUses(q, fset, refs, info.Pkg)
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}
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clearInfoFields(info) // save memory
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}
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lconf.Load() // ignore error
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if qpkg == nil {
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log.Fatalf("query package %q not found during reloading", path)
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}
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return nil
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}
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func usesOf(queryObj types.Object, info *loader.PackageInfo) []*ast.Ident {
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var refs []*ast.Ident
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for id, obj := range info.Uses {
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if sameObj(queryObj, obj) {
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refs = append(refs, id)
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}
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}
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return refs
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}
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// outputUses outputs a result describing refs, which appear in the package denoted by info.
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func outputUses(q *Query, fset *token.FileSet, refs []*ast.Ident, pkg *types.Package) {
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if len(refs) > 0 {
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sort.Sort(byNamePos{fset, refs})
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q.Output(fset, &referrersPackageResult{
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pkg: pkg,
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build: q.Build,
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fset: fset,
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refs: refs,
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})
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}
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}
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// globalReferrers reports references throughout the entire workspace to the
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// object at the specified source position. Its defining package is defpkg,
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// and the query package is qpkg. isPkgLevel indicates whether the object
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// is defined at package-level.
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func globalReferrers(q *Query, qpkg, defpkg string, objposn token.Position, isPkgLevel bool) error {
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// Scan the workspace and build the import graph.
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// Ignore broken packages.
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_, rev, _ := importgraph.Build(q.Build)
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// Find the set of packages that depend on defpkg.
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// Only function bodies in those packages need type-checking.
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var users map[string]bool
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if isPkgLevel {
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users = rev[defpkg] // direct importers
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if users == nil {
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users = make(map[string]bool)
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}
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users[defpkg] = true // plus the defining package itself
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} else {
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users = rev.Search(defpkg) // transitive importers
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}
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// Prepare to load the larger program.
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fset := token.NewFileSet()
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lconf := loader.Config{
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Fset: fset,
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Build: q.Build,
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TypeCheckFuncBodies: func(p string) bool {
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return users[strings.TrimSuffix(p, "_test")]
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},
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}
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allowErrors(&lconf)
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// The importgraph doesn't treat external test packages
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// as separate nodes, so we must use ImportWithTests.
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for path := range users {
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lconf.ImportWithTests(path)
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}
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// The remainder of this function is somewhat tricky because it
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// operates on the concurrent stream of packages observed by the
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// loader's AfterTypeCheck hook. Most of guru's helper
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// functions assume the entire program has already been loaded,
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// so we can't use them here.
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// TODO(adonovan): smooth things out once the other changes have landed.
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// Results are reported concurrently from within the
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// AfterTypeCheck hook. The program may provide a useful stream
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// of information even if the user doesn't let the program run
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// to completion.
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var (
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mu sync.Mutex
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qobj types.Object
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qinfo *loader.PackageInfo // info for qpkg
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)
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// For efficiency, we scan each package for references
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// just after it has been type-checked. The loader calls
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// AfterTypeCheck (concurrently), providing us with a stream of
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// packages.
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lconf.AfterTypeCheck = func(info *loader.PackageInfo, files []*ast.File) {
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// AfterTypeCheck may be called twice for the same package due to augmentation.
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// Only inspect packages that depend on the declaring package
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// (and thus were type-checked).
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if lconf.TypeCheckFuncBodies(info.Pkg.Path()) {
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// Record the query object and its package when we see it.
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mu.Lock()
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if qobj == nil && info.Pkg.Path() == defpkg {
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// Find the object by its position (slightly ugly).
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qobj = findObject(fset, &info.Info, objposn)
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if qobj == nil {
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// It really ought to be there;
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// we found it once already.
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log.Fatalf("object at %s not found in package %s",
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objposn, defpkg)
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}
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// Object found.
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qinfo = info
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q.Output(fset, &referrersInitialResult{
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qinfo: qinfo,
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obj: qobj,
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})
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}
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obj := qobj
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mu.Unlock()
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// Look for references to the query object.
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if obj != nil {
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outputUses(q, fset, usesOf(obj, info), info.Pkg)
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}
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}
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clearInfoFields(info) // save memory
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}
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lconf.Load() // ignore error
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if qobj == nil {
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log.Fatal("query object not found during reloading")
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}
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return nil // success
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}
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// findObject returns the object defined at the specified position.
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func findObject(fset *token.FileSet, info *types.Info, objposn token.Position) types.Object {
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good := func(obj types.Object) bool {
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if obj == nil {
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return false
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}
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posn := fset.Position(obj.Pos())
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return posn.Filename == objposn.Filename && posn.Offset == objposn.Offset
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}
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for _, obj := range info.Defs {
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if good(obj) {
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return obj
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}
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}
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for _, obj := range info.Implicits {
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if good(obj) {
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return obj
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}
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}
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return nil
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}
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// same reports whether x and y are identical, or both are PkgNames
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// that import the same Package.
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//
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func sameObj(x, y types.Object) bool {
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if x == y {
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return true
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}
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if x, ok := x.(*types.PkgName); ok {
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if y, ok := y.(*types.PkgName); ok {
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return x.Imported() == y.Imported()
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}
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}
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return false
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}
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func clearInfoFields(info *loader.PackageInfo) {
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// TODO(adonovan): opt: save memory by eliminating unneeded scopes/objects.
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// (Requires go/types change for Go 1.7.)
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// info.Pkg.Scope().ClearChildren()
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// Discard the file ASTs and their accumulated type
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// information to save memory.
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info.Files = nil
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info.Defs = make(map[*ast.Ident]types.Object)
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info.Uses = make(map[*ast.Ident]types.Object)
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info.Implicits = make(map[ast.Node]types.Object)
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// Also, disable future collection of wholly unneeded
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// type information for the package in case there is
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// more type-checking to do (augmentation).
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info.Types = nil
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info.Scopes = nil
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info.Selections = nil
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}
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// -------- utils --------
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// An deterministic ordering for token.Pos that doesn't
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// depend on the order in which packages were loaded.
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func lessPos(fset *token.FileSet, x, y token.Pos) bool {
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fx := fset.File(x)
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fy := fset.File(y)
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if fx != fy {
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return fx.Name() < fy.Name()
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}
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return x < y
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}
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type byNamePos struct {
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fset *token.FileSet
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ids []*ast.Ident
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}
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func (p byNamePos) Len() int { return len(p.ids) }
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func (p byNamePos) Swap(i, j int) { p.ids[i], p.ids[j] = p.ids[j], p.ids[i] }
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func (p byNamePos) Less(i, j int) bool {
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return lessPos(p.fset, p.ids[i].NamePos, p.ids[j].NamePos)
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}
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// referrersInitialResult is the initial result of a "referrers" query.
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type referrersInitialResult struct {
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qinfo *loader.PackageInfo
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obj types.Object // object it denotes
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}
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func (r *referrersInitialResult) PrintPlain(printf printfFunc) {
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printf(r.obj, "references to %s",
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types.ObjectString(r.obj, types.RelativeTo(r.qinfo.Pkg)))
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}
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func (r *referrersInitialResult) JSON(fset *token.FileSet) []byte {
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var objpos string
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if pos := r.obj.Pos(); pos.IsValid() {
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objpos = fset.Position(pos).String()
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}
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return toJSON(&serial.ReferrersInitial{
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Desc: r.obj.String(),
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ObjPos: objpos,
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})
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}
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// referrersPackageResult is the streaming result for one package of a "referrers" query.
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type referrersPackageResult struct {
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pkg *types.Package
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build *build.Context
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fset *token.FileSet
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refs []*ast.Ident // set of all other references to it
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}
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// forEachRef calls f(id, text) for id in r.refs, in order.
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// Text is the text of the line on which id appears.
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func (r *referrersPackageResult) foreachRef(f func(id *ast.Ident, text string)) {
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// Show referring lines, like grep.
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type fileinfo struct {
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refs []*ast.Ident
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linenums []int // line number of refs[i]
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data chan interface{} // file contents or error
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}
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var fileinfos []*fileinfo
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fileinfosByName := make(map[string]*fileinfo)
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// First pass: start the file reads concurrently.
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sema := make(chan struct{}, 20) // counting semaphore to limit I/O concurrency
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for _, ref := range r.refs {
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posn := r.fset.Position(ref.Pos())
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fi := fileinfosByName[posn.Filename]
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if fi == nil {
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fi = &fileinfo{data: make(chan interface{})}
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fileinfosByName[posn.Filename] = fi
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fileinfos = append(fileinfos, fi)
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// First request for this file:
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// start asynchronous read.
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go func() {
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sema <- struct{}{} // acquire token
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content, err := readFile(r.build, posn.Filename)
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<-sema // release token
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if err != nil {
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fi.data <- err
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} else {
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fi.data <- content
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}
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}()
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}
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fi.refs = append(fi.refs, ref)
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fi.linenums = append(fi.linenums, posn.Line)
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}
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// Second pass: print refs in original order.
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// One line may have several refs at different columns.
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for _, fi := range fileinfos {
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v := <-fi.data // wait for I/O completion
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// Print one item for all refs in a file that could not
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// be loaded (perhaps due to //line directives).
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if err, ok := v.(error); ok {
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var suffix string
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if more := len(fi.refs) - 1; more > 0 {
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suffix = fmt.Sprintf(" (+ %d more refs in this file)", more)
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}
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f(fi.refs[0], err.Error()+suffix)
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continue
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}
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lines := bytes.Split(v.([]byte), []byte("\n"))
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for i, ref := range fi.refs {
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f(ref, string(lines[fi.linenums[i]-1]))
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}
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}
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}
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// readFile is like ioutil.ReadFile, but
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// it goes through the virtualized build.Context.
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func readFile(ctxt *build.Context, filename string) ([]byte, error) {
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rc, err := buildutil.OpenFile(ctxt, filename)
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if err != nil {
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return nil, err
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}
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defer rc.Close()
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var buf bytes.Buffer
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if _, err := io.Copy(&buf, rc); err != nil {
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return nil, err
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}
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return buf.Bytes(), nil
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}
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func (r *referrersPackageResult) PrintPlain(printf printfFunc) {
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r.foreachRef(func(id *ast.Ident, text string) {
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printf(id, "%s", text)
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})
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}
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func (r *referrersPackageResult) JSON(fset *token.FileSet) []byte {
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refs := serial.ReferrersPackage{Package: r.pkg.Path()}
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r.foreachRef(func(id *ast.Ident, text string) {
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refs.Refs = append(refs.Refs, serial.Ref{
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Pos: fset.Position(id.NamePos).String(),
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Text: text,
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})
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|
})
|
|
return toJSON(refs)
|
|
}
|