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mirror of https://github.com/golang/go synced 2024-11-18 20:14:43 -07:00
go/imports/fix.go
Heschi Kreinick d4971274fe imports: don't remove imports that conflict with globals
When a package contains both a var and an import that produce the same
identifier, the compiler will complain. I had thought that it made sense
to remove the redundant imports in that case. However, we can't reliably
tell whether a global from one file is in scope in another file. Most
notably, having multiple main packages in the same directory is pretty
common, and if someone declares a var in one that matches an import in
another, we don't want to remove the import.

Change-Id: I49f58fccdb8a8542ec85cf4d80d3e20d3159d2c7
Reviewed-on: https://go-review.googlesource.com/c/154740
Run-TryBot: Heschi Kreinick <heschi@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Ian Cottrell <iancottrell@google.com>
2018-12-18 20:40:10 +00:00

1165 lines
31 KiB
Go

// Copyright 2013 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package imports
import (
"bytes"
"context"
"fmt"
"go/ast"
"go/build"
"go/parser"
"go/token"
"io/ioutil"
"log"
"os"
"os/exec"
"path"
"path/filepath"
"sort"
"strconv"
"strings"
"sync"
"golang.org/x/tools/go/ast/astutil"
"golang.org/x/tools/go/packages"
"golang.org/x/tools/internal/gopathwalk"
)
// Debug controls verbose logging.
var Debug = false
// LocalPrefix is a comma-separated string of import path prefixes, which, if
// set, instructs Process to sort the import paths with the given prefixes
// into another group after 3rd-party packages.
var LocalPrefix string
func localPrefixes() []string {
if LocalPrefix != "" {
return strings.Split(LocalPrefix, ",")
}
return nil
}
// importToGroup is a list of functions which map from an import path to
// a group number.
var importToGroup = []func(importPath string) (num int, ok bool){
func(importPath string) (num int, ok bool) {
for _, p := range localPrefixes() {
if strings.HasPrefix(importPath, p) || strings.TrimSuffix(p, "/") == importPath {
return 3, true
}
}
return
},
func(importPath string) (num int, ok bool) {
if strings.HasPrefix(importPath, "appengine") {
return 2, true
}
return
},
func(importPath string) (num int, ok bool) {
if strings.Contains(importPath, ".") {
return 1, true
}
return
},
}
func importGroup(importPath string) int {
for _, fn := range importToGroup {
if n, ok := fn(importPath); ok {
return n
}
}
return 0
}
// An importInfo represents a single import statement.
type importInfo struct {
importPath string // import path, e.g. "crypto/rand".
name string // import name, e.g. "crand", or "" if none.
}
// A packageInfo represents what's known about a package.
type packageInfo struct {
name string // discovered package name.
exports map[string]bool // known exports.
}
// parseOtherFiles parses all the Go files in srcDir except filename, including
// test files if filename looks like a test.
func parseOtherFiles(fset *token.FileSet, srcDir, filename string) []*ast.File {
// This could use go/packages but it doesn't buy much, and it fails
// with https://golang.org/issue/26296 in LoadFiles mode in some cases.
considerTests := strings.HasSuffix(filename, "_test.go")
fileBase := filepath.Base(filename)
packageFileInfos, err := ioutil.ReadDir(srcDir)
if err != nil {
return nil
}
var files []*ast.File
for _, fi := range packageFileInfos {
if fi.Name() == fileBase || !strings.HasSuffix(fi.Name(), ".go") {
continue
}
if !considerTests && strings.HasSuffix(fi.Name(), "_test.go") {
continue
}
f, err := parser.ParseFile(fset, filepath.Join(srcDir, fi.Name()), nil, 0)
if err != nil {
continue
}
files = append(files, f)
}
return files
}
// addGlobals puts the names of package vars into the provided map.
func addGlobals(f *ast.File, globals map[string]bool) {
for _, decl := range f.Decls {
genDecl, ok := decl.(*ast.GenDecl)
if !ok {
continue
}
for _, spec := range genDecl.Specs {
valueSpec, ok := spec.(*ast.ValueSpec)
if !ok {
continue
}
globals[valueSpec.Names[0].Name] = true
}
}
}
// collectReferences builds a map of selector expressions, from
// left hand side (X) to a set of right hand sides (Sel).
func collectReferences(f *ast.File) map[string]map[string]bool {
refs := map[string]map[string]bool{}
var visitor visitFn
visitor = func(node ast.Node) ast.Visitor {
if node == nil {
return visitor
}
switch v := node.(type) {
case *ast.SelectorExpr:
xident, ok := v.X.(*ast.Ident)
if !ok {
break
}
if xident.Obj != nil {
// if the parser can resolve it, it's not a package ref
break
}
pkgName := xident.Name
r := refs[pkgName]
if r == nil {
r = make(map[string]bool)
refs[pkgName] = r
}
if ast.IsExported(v.Sel.Name) {
r[v.Sel.Name] = true
}
}
return visitor
}
ast.Walk(visitor, f)
return refs
}
// collectImports returns all the imports in f, keyed by their package name as
// determined by pathToName. Unnamed imports (., _) and "C" are ignored.
func collectImports(f *ast.File) []*importInfo {
var imports []*importInfo
for _, imp := range f.Imports {
var name string
if imp.Name != nil {
name = imp.Name.Name
}
if imp.Path.Value == `"C"` || name == "_" || name == "." {
continue
}
path := strings.Trim(imp.Path.Value, `"`)
imports = append(imports, &importInfo{
name: name,
importPath: path,
})
}
return imports
}
// findMissingImport searches pass's candidates for an import that provides
// pkg, containing all of syms.
func (p *pass) findMissingImport(pkg string, syms map[string]bool) *importInfo {
for _, candidate := range p.candidates {
pkgInfo, ok := p.knownPackages[candidate.importPath]
if !ok {
continue
}
// If the candidate import has a name, it must match pkg.
if candidate.name != "" && candidate.name != pkg {
continue
}
// Otherwise, the real name of the package must match.
if candidate.name == "" && pkgInfo.name != pkg {
continue
}
allFound := true
for right := range syms {
if !pkgInfo.exports[right] {
allFound = false
break
}
}
if allFound {
return candidate
}
}
return nil
}
// A pass contains all the inputs and state necessary to fix a file's imports.
// It can be modified in some ways during use; see comments below.
type pass struct {
// Inputs. These must be set before a call to load, and not modified after.
fset *token.FileSet // fset used to parse f and its siblings.
f *ast.File // the file being fixed.
srcDir string // the directory containing f.
useGoPackages bool // use go/packages to load package information.
loadRealPackageNames bool // if true, load package names from disk rather than guessing them.
otherFiles []*ast.File // sibling files.
// Intermediate state, generated by load.
existingImports map[string]*importInfo
allRefs map[string]map[string]bool
missingRefs map[string]map[string]bool
// Inputs to fix. These can be augmented between successive fix calls.
lastTry bool // indicates that this is the last call and fix should clean up as best it can.
candidates []*importInfo // candidate imports in priority order.
knownPackages map[string]*packageInfo // information about all known packages.
}
// loadPackageNames saves the package names for everything referenced by imports.
func (p *pass) loadPackageNames(imports []*importInfo) error {
var unknown []string
for _, imp := range imports {
if _, ok := p.knownPackages[imp.importPath]; ok {
continue
}
unknown = append(unknown, imp.importPath)
}
if !p.useGoPackages || !p.loadRealPackageNames {
pathToName := importPathToNameBasic
if p.loadRealPackageNames {
pathToName = importPathToName
}
for _, path := range unknown {
p.knownPackages[path] = &packageInfo{
name: pathToName(path, p.srcDir),
exports: map[string]bool{},
}
}
return nil
}
cfg := newPackagesConfig(packages.LoadFiles)
pkgs, err := packages.Load(cfg, unknown...)
if err != nil {
return err
}
for _, pkg := range pkgs {
p.knownPackages[VendorlessPath(pkg.PkgPath)] = &packageInfo{
name: pkg.Name,
exports: map[string]bool{},
}
}
// We may not have found all the packages. Guess the rest.
for _, path := range unknown {
if _, ok := p.knownPackages[path]; ok {
continue
}
p.knownPackages[path] = &packageInfo{
name: importPathToNameBasic(path, p.srcDir),
exports: map[string]bool{},
}
}
return nil
}
// importIdentifier returns the indentifier that imp will introduce.
func (p *pass) importIdentifier(imp *importInfo) string {
if imp.name != "" {
return imp.name
}
return p.knownPackages[imp.importPath].name
}
// load reads in everything necessary to run a pass, and reports whether the
// file already has all the imports it needs. It fills in p.missingRefs with the
// file's missing symbols, if any, or removes unused imports if not.
func (p *pass) load() bool {
p.knownPackages = map[string]*packageInfo{}
p.missingRefs = map[string]map[string]bool{}
p.existingImports = map[string]*importInfo{}
// Load basic information about the file in question.
p.allRefs = collectReferences(p.f)
// Load stuff from other files in the same package:
// global variables so we know they don't need resolving, and imports
// that we might want to mimic.
globals := map[string]bool{}
for _, otherFile := range p.otherFiles {
// Don't load globals from files that are in the same directory
// but a different package. Using them to suggest imports is OK.
if p.f.Name.Name == otherFile.Name.Name {
addGlobals(otherFile, globals)
}
p.candidates = append(p.candidates, collectImports(otherFile)...)
}
// Resolve all the import paths we've seen to package names, and store
// f's imports by the identifier they introduce.
imports := collectImports(p.f)
p.loadPackageNames(append(imports, p.candidates...))
for _, imp := range imports {
p.existingImports[p.importIdentifier(imp)] = imp
}
// Find missing references.
for left, rights := range p.allRefs {
if globals[left] {
continue
}
_, ok := p.existingImports[left]
if !ok {
p.missingRefs[left] = rights
continue
}
}
if len(p.missingRefs) != 0 {
return false
}
return p.fix()
}
// fix attempts to satisfy missing imports using p.candidates. If it finds
// everything, or if p.lastTry is true, it adds the imports it found,
// removes anything unused, and returns true.
func (p *pass) fix() bool {
// Find missing imports.
var selected []*importInfo
for left, rights := range p.missingRefs {
if imp := p.findMissingImport(left, rights); imp != nil {
selected = append(selected, imp)
}
}
if !p.lastTry && len(selected) != len(p.missingRefs) {
return false
}
// Found everything, or giving up. Add the new imports and remove any unused.
for _, imp := range p.existingImports {
// We deliberately ignore globals here, because we can't be sure
// they're in the same package. People do things like put multiple
// main packages in the same directory, and we don't want to
// remove imports if they happen to have the same name as a var in
// a different package.
if _, ok := p.allRefs[p.importIdentifier(imp)]; !ok {
astutil.DeleteNamedImport(p.fset, p.f, imp.name, imp.importPath)
}
}
for _, imp := range selected {
astutil.AddNamedImport(p.fset, p.f, imp.name, imp.importPath)
}
if p.loadRealPackageNames {
for _, imp := range p.f.Imports {
if imp.Name != nil {
continue
}
path := strings.Trim(imp.Path.Value, `""`)
pkg, ok := p.knownPackages[path]
if !ok {
continue
}
if pkg.name != importPathToNameBasic(path, p.srcDir) {
imp.Name = &ast.Ident{Name: pkg.name, NamePos: imp.Pos()}
}
}
}
return true
}
// assumeSiblingImportsValid assumes that siblings' use of packages is valid,
// adding the exports they use.
func (p *pass) assumeSiblingImportsValid() {
for _, f := range p.otherFiles {
refs := collectReferences(f)
imports := collectImports(f)
importsByName := map[string]*importInfo{}
for _, imp := range imports {
importsByName[p.importIdentifier(imp)] = imp
}
for left, rights := range refs {
if imp, ok := importsByName[left]; ok {
if _, ok := stdlib[imp.importPath]; ok {
// We have the stdlib in memory; no need to guess.
rights = stdlib[imp.importPath]
}
p.addCandidate(imp, &packageInfo{
// no name; we already know it.
exports: rights,
})
}
}
}
}
// addCandidate adds a candidate import to p, and merges in the information
// in pkg.
func (p *pass) addCandidate(imp *importInfo, pkg *packageInfo) {
p.candidates = append(p.candidates, imp)
if existing, ok := p.knownPackages[imp.importPath]; ok {
if existing.name == "" {
existing.name = pkg.name
}
for export := range pkg.exports {
existing.exports[export] = true
}
} else {
p.knownPackages[imp.importPath] = pkg
}
}
// fixImports adds and removes imports from f so that all its references are
// satisfied and there are no unused imports.
//
// This is declared as a variable rather than a function so goimports can
// easily be extended by adding a file with an init function.
var fixImports = fixImportsDefault
func fixImportsDefault(fset *token.FileSet, f *ast.File, filename string) error {
abs, err := filepath.Abs(filename)
if err != nil {
return err
}
srcDir := filepath.Dir(abs)
if Debug {
log.Printf("fixImports(filename=%q), abs=%q, srcDir=%q ...", filename, abs, srcDir)
}
// First pass: looking only at f, and using the naive algorithm to
// derive package names from import paths, see if the file is already
// complete. We can't add any imports yet, because we don't know
// if missing references are actually package vars.
p := &pass{fset: fset, f: f, srcDir: srcDir}
if p.load() {
return nil
}
otherFiles := parseOtherFiles(fset, srcDir, filename)
// Second pass: add information from other files in the same package,
// like their package vars and imports.
p = &pass{fset: fset, f: f, srcDir: srcDir}
p.otherFiles = otherFiles
if p.load() {
return nil
}
// Now we can try adding imports from the stdlib.
p.assumeSiblingImportsValid()
addStdlibCandidates(p, p.missingRefs)
if p.fix() {
return nil
}
// The only things that use go/packages happen in the third pass,
// so we can delay calling go env until this point.
useGoPackages := shouldUseGoPackages()
// Third pass: get real package names where we had previously used
// the naive algorithm.
p = &pass{fset: fset, f: f, srcDir: srcDir, useGoPackages: useGoPackages}
p.loadRealPackageNames = true
p.otherFiles = otherFiles
if p.load() {
return nil
}
addStdlibCandidates(p, p.missingRefs)
p.assumeSiblingImportsValid()
if p.fix() {
return nil
}
// Go look for candidates in $GOPATH, etc. We don't necessarily load
// the real exports of sibling imports, so keep assuming their contents.
if err := addExternalCandidates(p, p.missingRefs, filename); err != nil {
return err
}
p.lastTry = true
p.fix()
return nil
}
// Values controlling the use of go/packages, for testing only.
var forceGoPackages, _ = strconv.ParseBool(os.Getenv("GOIMPORTSFORCEGOPACKAGES"))
var goPackagesDir string
var go111ModuleEnv string
func shouldUseGoPackages() bool {
if forceGoPackages {
return true
}
cmd := exec.Command("go", "env", "GOMOD")
cmd.Dir = goPackagesDir
out, err := cmd.Output()
if err != nil {
return false
}
return len(bytes.TrimSpace(out)) > 0
}
func newPackagesConfig(mode packages.LoadMode) *packages.Config {
cfg := &packages.Config{
Mode: mode,
Dir: goPackagesDir,
Env: append(os.Environ(), "GOROOT="+build.Default.GOROOT, "GOPATH="+build.Default.GOPATH),
}
if go111ModuleEnv != "" {
cfg.Env = append(cfg.Env, "GO111MODULE="+go111ModuleEnv)
}
return cfg
}
func addStdlibCandidates(pass *pass, refs map[string]map[string]bool) {
add := func(pkg string) {
pass.addCandidate(
&importInfo{importPath: pkg},
&packageInfo{name: path.Base(pkg), exports: stdlib[pkg]})
}
for left := range refs {
if left == "rand" {
// Make sure we try crypto/rand before math/rand.
add("crypto/rand")
add("math/rand")
continue
}
for importPath := range stdlib {
if path.Base(importPath) == left {
add(importPath)
}
}
}
}
func scanGoPackages(refs map[string]map[string]bool) ([]*pkg, error) {
var loadQueries []string
for pkgName := range refs {
loadQueries = append(loadQueries, "name="+pkgName)
}
sort.Strings(loadQueries)
cfg := newPackagesConfig(packages.LoadTypes)
goPackages, err := packages.Load(cfg, loadQueries...)
if err != nil {
return nil, err
}
var scan []*pkg
for _, goPackage := range goPackages {
scan = append(scan, &pkg{
dir: filepath.Dir(goPackage.CompiledGoFiles[0]),
importPathShort: VendorlessPath(goPackage.PkgPath),
goPackage: goPackage,
})
}
return scan, nil
}
var addExternalCandidates = addExternalCandidatesDefault
func addExternalCandidatesDefault(pass *pass, refs map[string]map[string]bool, filename string) error {
var dirScan []*pkg
if pass.useGoPackages {
var err error
dirScan, err = scanGoPackages(refs)
if err != nil {
return err
}
} else {
dirScan = scanGoDirs()
}
// Search for imports matching potential package references.
type result struct {
imp *importInfo
pkg *packageInfo
}
results := make(chan result, len(refs))
ctx, cancel := context.WithCancel(context.TODO())
var wg sync.WaitGroup
defer func() {
cancel()
wg.Wait()
}()
var (
firstErr error
firstErrOnce sync.Once
)
for pkgName, symbols := range refs {
wg.Add(1)
go func(pkgName string, symbols map[string]bool) {
defer wg.Done()
found, err := findImport(ctx, dirScan, pkgName, symbols, filename)
if err != nil {
firstErrOnce.Do(func() {
firstErr = err
cancel()
})
return
}
if found == nil {
return // No matching package.
}
imp := &importInfo{
importPath: found.importPathShort,
}
pkg := &packageInfo{
name: pkgName,
exports: symbols,
}
results <- result{imp, pkg}
}(pkgName, symbols)
}
go func() {
wg.Wait()
close(results)
}()
for result := range results {
pass.addCandidate(result.imp, result.pkg)
}
return firstErr
}
// importPathToNameBasic assumes the package name is the base of import path,
// except that if the path ends in foo/vN, it assumes the package name is foo.
func importPathToNameBasic(importPath, srcDir string) (packageName string) {
base := path.Base(importPath)
if strings.HasPrefix(base, "v") {
if _, err := strconv.Atoi(base[1:]); err == nil {
dir := path.Dir(importPath)
if dir != "." {
return path.Base(dir)
}
}
}
return base
}
// importPathToNameGoPath finds out the actual package name, as declared in its .go files.
// If there's a problem, it falls back to using importPathToNameBasic.
func importPathToName(importPath, srcDir string) (packageName string) {
// Fast path for standard library without going to disk.
if _, ok := stdlib[importPath]; ok {
return path.Base(importPath) // stdlib packages always match their paths.
}
pkgName, err := importPathToNameGoPathParse(importPath, srcDir)
if Debug {
log.Printf("importPathToNameGoPathParse(%q, srcDir=%q) = %q, %v", importPath, srcDir, pkgName, err)
}
if err == nil {
return pkgName
}
return importPathToNameBasic(importPath, srcDir)
}
// importPathToNameGoPathParse is a faster version of build.Import if
// the only thing desired is the package name. It uses build.FindOnly
// to find the directory and then only parses one file in the package,
// trusting that the files in the directory are consistent.
func importPathToNameGoPathParse(importPath, srcDir string) (packageName string, err error) {
buildPkg, err := build.Import(importPath, srcDir, build.FindOnly)
if err != nil {
return "", err
}
d, err := os.Open(buildPkg.Dir)
if err != nil {
return "", err
}
names, err := d.Readdirnames(-1)
d.Close()
if err != nil {
return "", err
}
sort.Strings(names) // to have predictable behavior
var lastErr error
var nfile int
for _, name := range names {
if !strings.HasSuffix(name, ".go") {
continue
}
if strings.HasSuffix(name, "_test.go") {
continue
}
nfile++
fullFile := filepath.Join(buildPkg.Dir, name)
fset := token.NewFileSet()
f, err := parser.ParseFile(fset, fullFile, nil, parser.PackageClauseOnly)
if err != nil {
lastErr = err
continue
}
pkgName := f.Name.Name
if pkgName == "documentation" {
// Special case from go/build.ImportDir, not
// handled by ctx.MatchFile.
continue
}
if pkgName == "main" {
// Also skip package main, assuming it's a +build ignore generator or example.
// Since you can't import a package main anyway, there's no harm here.
continue
}
return pkgName, nil
}
if lastErr != nil {
return "", lastErr
}
return "", fmt.Errorf("no importable package found in %d Go files", nfile)
}
type pkg struct {
goPackage *packages.Package
dir string // absolute file path to pkg directory ("/usr/lib/go/src/net/http")
importPathShort string // vendorless import path ("net/http", "a/b")
}
type pkgDistance struct {
pkg *pkg
distance int // relative distance to target
}
// byDistanceOrImportPathShortLength sorts by relative distance breaking ties
// on the short import path length and then the import string itself.
type byDistanceOrImportPathShortLength []pkgDistance
func (s byDistanceOrImportPathShortLength) Len() int { return len(s) }
func (s byDistanceOrImportPathShortLength) Less(i, j int) bool {
di, dj := s[i].distance, s[j].distance
if di == -1 {
return false
}
if dj == -1 {
return true
}
if di != dj {
return di < dj
}
vi, vj := s[i].pkg.importPathShort, s[j].pkg.importPathShort
if len(vi) != len(vj) {
return len(vi) < len(vj)
}
return vi < vj
}
func (s byDistanceOrImportPathShortLength) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func distance(basepath, targetpath string) int {
p, err := filepath.Rel(basepath, targetpath)
if err != nil {
return -1
}
if p == "." {
return 0
}
return strings.Count(p, string(filepath.Separator)) + 1
}
// scanGoDirs populates the dirScan map for GOPATH and GOROOT.
func scanGoDirs() []*pkg {
dupCheck := make(map[string]bool)
var result []*pkg
var mu sync.Mutex
add := func(root gopathwalk.Root, dir string) {
mu.Lock()
defer mu.Unlock()
if _, dup := dupCheck[dir]; dup {
return
}
dupCheck[dir] = true
importpath := filepath.ToSlash(dir[len(root.Path)+len("/"):])
result = append(result, &pkg{
importPathShort: VendorlessPath(importpath),
dir: dir,
})
}
gopathwalk.Walk(gopathwalk.SrcDirsRoots(), add, gopathwalk.Options{Debug: Debug, ModulesEnabled: false})
return result
}
// VendorlessPath returns the devendorized version of the import path ipath.
// For example, VendorlessPath("foo/bar/vendor/a/b") returns "a/b".
func VendorlessPath(ipath string) string {
// Devendorize for use in import statement.
if i := strings.LastIndex(ipath, "/vendor/"); i >= 0 {
return ipath[i+len("/vendor/"):]
}
if strings.HasPrefix(ipath, "vendor/") {
return ipath[len("vendor/"):]
}
return ipath
}
// loadExports returns the set of exported symbols in the package at dir.
// It returns nil on error or if the package name in dir does not match expectPackage.
func loadExports(ctx context.Context, expectPackage string, pkg *pkg) (map[string]bool, error) {
if pkg.goPackage != nil {
exports := map[string]bool{}
for _, name := range pkg.goPackage.Types.Scope().Names() {
if ast.IsExported(name) {
exports[name] = true
}
}
return exports, nil
}
if Debug {
log.Printf("loading exports in dir %s (seeking package %s)", pkg.dir, expectPackage)
}
exports := make(map[string]bool)
buildCtx := build.Default
// ReadDir is like ioutil.ReadDir, but only returns *.go files
// and filters out _test.go files since they're not relevant
// and only slow things down.
buildCtx.ReadDir = func(dir string) (notTests []os.FileInfo, err error) {
all, err := ioutil.ReadDir(dir)
if err != nil {
return nil, err
}
notTests = all[:0]
for _, fi := range all {
name := fi.Name()
if strings.HasSuffix(name, ".go") && !strings.HasSuffix(name, "_test.go") {
notTests = append(notTests, fi)
}
}
return notTests, nil
}
files, err := buildCtx.ReadDir(pkg.dir)
if err != nil {
log.Print(err)
return nil, err
}
fset := token.NewFileSet()
for _, fi := range files {
select {
case <-ctx.Done():
return nil, ctx.Err()
default:
}
match, err := buildCtx.MatchFile(pkg.dir, fi.Name())
if err != nil || !match {
continue
}
fullFile := filepath.Join(pkg.dir, fi.Name())
f, err := parser.ParseFile(fset, fullFile, nil, 0)
if err != nil {
if Debug {
log.Printf("Parsing %s: %v", fullFile, err)
}
return nil, err
}
pkgName := f.Name.Name
if pkgName == "documentation" {
// Special case from go/build.ImportDir, not
// handled by buildCtx.MatchFile.
continue
}
if pkgName != expectPackage {
err := fmt.Errorf("scan of dir %v is not expected package %v (actually %v)", pkg.dir, expectPackage, pkgName)
if Debug {
log.Print(err)
}
return nil, err
}
for name := range f.Scope.Objects {
if ast.IsExported(name) {
exports[name] = true
}
}
}
if Debug {
exportList := make([]string, 0, len(exports))
for k := range exports {
exportList = append(exportList, k)
}
sort.Strings(exportList)
log.Printf("loaded exports in dir %v (package %v): %v", pkg.dir, expectPackage, strings.Join(exportList, ", "))
}
return exports, nil
}
// findImport searches for a package with the given symbols.
// If no package is found, findImport returns ("", false, nil)
func findImport(ctx context.Context, dirScan []*pkg, pkgName string, symbols map[string]bool, filename string) (*pkg, error) {
pkgDir, err := filepath.Abs(filename)
if err != nil {
return nil, err
}
pkgDir = filepath.Dir(pkgDir)
// Find candidate packages, looking only at their directory names first.
var candidates []pkgDistance
for _, pkg := range dirScan {
if pkgIsCandidate(filename, pkgName, pkg) {
candidates = append(candidates, pkgDistance{
pkg: pkg,
distance: distance(pkgDir, pkg.dir),
})
}
}
// Sort the candidates by their import package length,
// assuming that shorter package names are better than long
// ones. Note that this sorts by the de-vendored name, so
// there's no "penalty" for vendoring.
sort.Sort(byDistanceOrImportPathShortLength(candidates))
if Debug {
for i, c := range candidates {
log.Printf("%s candidate %d/%d: %v in %v", pkgName, i+1, len(candidates), c.pkg.importPathShort, c.pkg.dir)
}
}
// Collect exports for packages with matching names.
rescv := make([]chan *pkg, len(candidates))
for i := range candidates {
rescv[i] = make(chan *pkg, 1)
}
const maxConcurrentPackageImport = 4
loadExportsSem := make(chan struct{}, maxConcurrentPackageImport)
ctx, cancel := context.WithCancel(ctx)
var wg sync.WaitGroup
defer func() {
cancel()
wg.Wait()
}()
wg.Add(1)
go func() {
defer wg.Done()
for i, c := range candidates {
select {
case loadExportsSem <- struct{}{}:
case <-ctx.Done():
return
}
wg.Add(1)
go func(c pkgDistance, resc chan<- *pkg) {
defer func() {
<-loadExportsSem
wg.Done()
}()
exports, err := loadExports(ctx, pkgName, c.pkg)
if err != nil {
resc <- nil
return
}
// If it doesn't have the right
// symbols, send nil to mean no match.
for symbol := range symbols {
if !exports[symbol] {
resc <- nil
return
}
}
resc <- c.pkg
}(c, rescv[i])
}
}()
for _, resc := range rescv {
pkg := <-resc
if pkg == nil {
continue
}
return pkg, nil
}
return nil, nil
}
// pkgIsCandidate reports whether pkg is a candidate for satisfying the
// finding which package pkgIdent in the file named by filename is trying
// to refer to.
//
// This check is purely lexical and is meant to be as fast as possible
// because it's run over all $GOPATH directories to filter out poor
// candidates in order to limit the CPU and I/O later parsing the
// exports in candidate packages.
//
// filename is the file being formatted.
// pkgIdent is the package being searched for, like "client" (if
// searching for "client.New")
func pkgIsCandidate(filename, pkgIdent string, pkg *pkg) bool {
// Check "internal" and "vendor" visibility:
if !canUse(filename, pkg.dir) {
return false
}
// Speed optimization to minimize disk I/O:
// the last two components on disk must contain the
// package name somewhere.
//
// This permits mismatch naming like directory
// "go-foo" being package "foo", or "pkg.v3" being "pkg",
// or directory "google.golang.org/api/cloudbilling/v1"
// being package "cloudbilling", but doesn't
// permit a directory "foo" to be package
// "bar", which is strongly discouraged
// anyway. There's no reason goimports needs
// to be slow just to accommodate that.
lastTwo := lastTwoComponents(pkg.importPathShort)
if strings.Contains(lastTwo, pkgIdent) {
return true
}
if hasHyphenOrUpperASCII(lastTwo) && !hasHyphenOrUpperASCII(pkgIdent) {
lastTwo = lowerASCIIAndRemoveHyphen(lastTwo)
if strings.Contains(lastTwo, pkgIdent) {
return true
}
}
return false
}
func hasHyphenOrUpperASCII(s string) bool {
for i := 0; i < len(s); i++ {
b := s[i]
if b == '-' || ('A' <= b && b <= 'Z') {
return true
}
}
return false
}
func lowerASCIIAndRemoveHyphen(s string) (ret string) {
buf := make([]byte, 0, len(s))
for i := 0; i < len(s); i++ {
b := s[i]
switch {
case b == '-':
continue
case 'A' <= b && b <= 'Z':
buf = append(buf, b+('a'-'A'))
default:
buf = append(buf, b)
}
}
return string(buf)
}
// canUse reports whether the package in dir is usable from filename,
// respecting the Go "internal" and "vendor" visibility rules.
func canUse(filename, dir string) bool {
// Fast path check, before any allocations. If it doesn't contain vendor
// or internal, it's not tricky:
// Note that this can false-negative on directories like "notinternal",
// but we check it correctly below. This is just a fast path.
if !strings.Contains(dir, "vendor") && !strings.Contains(dir, "internal") {
return true
}
dirSlash := filepath.ToSlash(dir)
if !strings.Contains(dirSlash, "/vendor/") && !strings.Contains(dirSlash, "/internal/") && !strings.HasSuffix(dirSlash, "/internal") {
return true
}
// Vendor or internal directory only visible from children of parent.
// That means the path from the current directory to the target directory
// can contain ../vendor or ../internal but not ../foo/vendor or ../foo/internal
// or bar/vendor or bar/internal.
// After stripping all the leading ../, the only okay place to see vendor or internal
// is at the very beginning of the path.
absfile, err := filepath.Abs(filename)
if err != nil {
return false
}
absdir, err := filepath.Abs(dir)
if err != nil {
return false
}
rel, err := filepath.Rel(absfile, absdir)
if err != nil {
return false
}
relSlash := filepath.ToSlash(rel)
if i := strings.LastIndex(relSlash, "../"); i >= 0 {
relSlash = relSlash[i+len("../"):]
}
return !strings.Contains(relSlash, "/vendor/") && !strings.Contains(relSlash, "/internal/") && !strings.HasSuffix(relSlash, "/internal")
}
// lastTwoComponents returns at most the last two path components
// of v, using either / or \ as the path separator.
func lastTwoComponents(v string) string {
nslash := 0
for i := len(v) - 1; i >= 0; i-- {
if v[i] == '/' || v[i] == '\\' {
nslash++
if nslash == 2 {
return v[i:]
}
}
}
return v
}
type visitFn func(node ast.Node) ast.Visitor
func (fn visitFn) Visit(node ast.Node) ast.Visitor {
return fn(node)
}