mirror of
https://github.com/golang/go
synced 2024-11-18 13:14:47 -07:00
8b3cccae50
- Removed the StandAlone and Asset root types as they were just there for other vfses to satisfy the FileSystem interface and causing unnecessary confusion. Returning just empty strings in those scenarios now to clarify that it is a dummy placeholder. - Removed the prefix "Fs" from RootType as it was unnecessary. - Using the RootType type to pass down to the html templates instead of converting to string. The templates are capable of converting to the actual string representation when comparing the value. Change-Id: Iadc039f1354ecd814eec0af1e52cdbaaeff0cc89 Reviewed-on: https://go-review.googlesource.com/106196 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
384 lines
10 KiB
Go
384 lines
10 KiB
Go
// Copyright 2010 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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// This file contains the code dealing with package directory trees.
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package godoc
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import (
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"go/doc"
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"go/parser"
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"go/token"
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"log"
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"os"
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pathpkg "path"
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"runtime"
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"sort"
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"strings"
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"golang.org/x/tools/godoc/vfs"
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)
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// Conventional name for directories containing test data.
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// Excluded from directory trees.
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//
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const testdataDirName = "testdata"
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type Directory struct {
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Depth int
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Path string // directory path; includes Name
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Name string // directory name
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HasPkg bool // true if the directory contains at least one package
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Synopsis string // package documentation, if any
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RootType vfs.RootType // root type of the filesystem containing the directory
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Dirs []*Directory // subdirectories
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}
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func isGoFile(fi os.FileInfo) bool {
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name := fi.Name()
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return !fi.IsDir() &&
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len(name) > 0 && name[0] != '.' && // ignore .files
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pathpkg.Ext(name) == ".go"
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}
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func isPkgFile(fi os.FileInfo) bool {
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return isGoFile(fi) &&
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!strings.HasSuffix(fi.Name(), "_test.go") // ignore test files
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}
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func isPkgDir(fi os.FileInfo) bool {
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name := fi.Name()
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return fi.IsDir() && len(name) > 0 &&
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name[0] != '_' && name[0] != '.' // ignore _files and .files
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}
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type treeBuilder struct {
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c *Corpus
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maxDepth int
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}
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// ioGate is a semaphore controlling VFS activity (ReadDir, parseFile, etc).
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// Send before an operation and receive after.
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var ioGate = make(chan struct{}, 20)
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// workGate controls the number of concurrent workers. Too many concurrent
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// workers and performance degrades and the race detector gets overwhelmed. If
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// we cannot check out a concurrent worker, work is performed by the main thread
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// instead of spinning up another goroutine.
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var workGate = make(chan struct{}, runtime.NumCPU()*4)
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func (b *treeBuilder) newDirTree(fset *token.FileSet, path, name string, depth int) *Directory {
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if name == testdataDirName {
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return nil
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}
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if depth >= b.maxDepth {
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// return a dummy directory so that the parent directory
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// doesn't get discarded just because we reached the max
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// directory depth
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return &Directory{
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Depth: depth,
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Path: path,
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Name: name,
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}
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}
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var synopses [3]string // prioritized package documentation (0 == highest priority)
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show := true // show in package listing
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hasPkgFiles := false
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haveSummary := false
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if hook := b.c.SummarizePackage; hook != nil {
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if summary, show0, ok := hook(strings.TrimPrefix(path, "/src/")); ok {
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hasPkgFiles = true
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show = show0
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synopses[0] = summary
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haveSummary = true
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}
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}
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ioGate <- struct{}{}
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list, err := b.c.fs.ReadDir(path)
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<-ioGate
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if err != nil {
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// TODO: propagate more. See golang.org/issue/14252.
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// For now:
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if b.c.Verbose {
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log.Printf("newDirTree reading %s: %v", path, err)
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}
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}
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// determine number of subdirectories and if there are package files
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var dirchs []chan *Directory
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var dirs []*Directory
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for _, d := range list {
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filename := pathpkg.Join(path, d.Name())
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switch {
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case isPkgDir(d):
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name := d.Name()
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select {
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case workGate <- struct{}{}:
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ch := make(chan *Directory, 1)
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dirchs = append(dirchs, ch)
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go func() {
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ch <- b.newDirTree(fset, filename, name, depth+1)
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<-workGate
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}()
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default:
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// no free workers, do work synchronously
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dir := b.newDirTree(fset, filename, name, depth+1)
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if dir != nil {
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dirs = append(dirs, dir)
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}
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}
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case !haveSummary && isPkgFile(d):
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// looks like a package file, but may just be a file ending in ".go";
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// don't just count it yet (otherwise we may end up with hasPkgFiles even
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// though the directory doesn't contain any real package files - was bug)
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// no "optimal" package synopsis yet; continue to collect synopses
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ioGate <- struct{}{}
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const flags = parser.ParseComments | parser.PackageClauseOnly
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file, err := b.c.parseFile(fset, filename, flags)
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<-ioGate
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if err != nil {
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if b.c.Verbose {
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log.Printf("Error parsing %v: %v", filename, err)
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}
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break
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}
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hasPkgFiles = true
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if file.Doc != nil {
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// prioritize documentation
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i := -1
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switch file.Name.Name {
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case name:
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i = 0 // normal case: directory name matches package name
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case "main":
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i = 1 // directory contains a main package
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default:
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i = 2 // none of the above
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}
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if 0 <= i && i < len(synopses) && synopses[i] == "" {
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synopses[i] = doc.Synopsis(file.Doc.Text())
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}
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}
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haveSummary = synopses[0] != ""
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}
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}
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// create subdirectory tree
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for _, ch := range dirchs {
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if d := <-ch; d != nil {
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dirs = append(dirs, d)
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}
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}
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// We need to sort the dirs slice because
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// it is appended again after reading from dirchs.
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sort.Slice(dirs, func(i, j int) bool {
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return dirs[i].Name < dirs[j].Name
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})
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// if there are no package files and no subdirectories
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// containing package files, ignore the directory
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if !hasPkgFiles && len(dirs) == 0 {
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return nil
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}
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// select the highest-priority synopsis for the directory entry, if any
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synopsis := ""
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for _, synopsis = range synopses {
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if synopsis != "" {
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break
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}
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}
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return &Directory{
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Depth: depth,
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Path: path,
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Name: name,
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HasPkg: hasPkgFiles && show, // TODO(bradfitz): add proper Hide field?
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Synopsis: synopsis,
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RootType: b.c.fs.RootType(path),
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Dirs: dirs,
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}
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}
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// newDirectory creates a new package directory tree with at most maxDepth
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// levels, anchored at root. The result tree is pruned such that it only
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// contains directories that contain package files or that contain
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// subdirectories containing package files (transitively). If a non-nil
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// pathFilter is provided, directory paths additionally must be accepted
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// by the filter (i.e., pathFilter(path) must be true). If a value >= 0 is
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// provided for maxDepth, nodes at larger depths are pruned as well; they
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// are assumed to contain package files even if their contents are not known
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// (i.e., in this case the tree may contain directories w/o any package files).
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//
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func (c *Corpus) newDirectory(root string, maxDepth int) *Directory {
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// The root could be a symbolic link so use Stat not Lstat.
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d, err := c.fs.Stat(root)
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// If we fail here, report detailed error messages; otherwise
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// is is hard to see why a directory tree was not built.
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switch {
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case err != nil:
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log.Printf("newDirectory(%s): %s", root, err)
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return nil
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case root != "/" && !isPkgDir(d):
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log.Printf("newDirectory(%s): not a package directory", root)
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return nil
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case root == "/" && !d.IsDir():
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log.Printf("newDirectory(%s): not a directory", root)
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return nil
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}
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if maxDepth < 0 {
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maxDepth = 1e6 // "infinity"
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}
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b := treeBuilder{c, maxDepth}
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// the file set provided is only for local parsing, no position
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// information escapes and thus we don't need to save the set
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return b.newDirTree(token.NewFileSet(), root, d.Name(), 0)
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}
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func (dir *Directory) walk(c chan<- *Directory, skipRoot bool) {
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if dir != nil {
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if !skipRoot {
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c <- dir
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}
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for _, d := range dir.Dirs {
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d.walk(c, false)
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}
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}
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}
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func (dir *Directory) iter(skipRoot bool) <-chan *Directory {
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c := make(chan *Directory)
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go func() {
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dir.walk(c, skipRoot)
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close(c)
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}()
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return c
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}
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func (dir *Directory) lookupLocal(name string) *Directory {
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for _, d := range dir.Dirs {
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if d.Name == name {
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return d
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}
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}
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return nil
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}
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func splitPath(p string) []string {
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p = strings.TrimPrefix(p, "/")
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if p == "" {
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return nil
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}
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return strings.Split(p, "/")
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}
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// lookup looks for the *Directory for a given path, relative to dir.
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func (dir *Directory) lookup(path string) *Directory {
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d := splitPath(dir.Path)
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p := splitPath(path)
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i := 0
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for i < len(d) {
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if i >= len(p) || d[i] != p[i] {
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return nil
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}
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i++
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}
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for dir != nil && i < len(p) {
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dir = dir.lookupLocal(p[i])
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i++
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}
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return dir
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}
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// DirEntry describes a directory entry. The Depth and Height values
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// are useful for presenting an entry in an indented fashion.
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//
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type DirEntry struct {
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Depth int // >= 0
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Height int // = DirList.MaxHeight - Depth, > 0
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Path string // directory path; includes Name, relative to DirList root
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Name string // directory name
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HasPkg bool // true if the directory contains at least one package
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Synopsis string // package documentation, if any
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RootType vfs.RootType // root type of the filesystem containing the direntry
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}
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type DirList struct {
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MaxHeight int // directory tree height, > 0
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List []DirEntry
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}
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// hasThirdParty checks whether a list of directory entries has packages outside
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// the standard library or not.
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func hasThirdParty(list []DirEntry) bool {
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for _, entry := range list {
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if entry.RootType == vfs.RootTypeGoPath {
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return true
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}
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}
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return false
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}
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// listing creates a (linear) directory listing from a directory tree.
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// If skipRoot is set, the root directory itself is excluded from the list.
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// If filter is set, only the directory entries whose paths match the filter
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// are included.
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//
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func (root *Directory) listing(skipRoot bool, filter func(string) bool) *DirList {
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if root == nil {
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return nil
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}
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// determine number of entries n and maximum height
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n := 0
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minDepth := 1 << 30 // infinity
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maxDepth := 0
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for d := range root.iter(skipRoot) {
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n++
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if minDepth > d.Depth {
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minDepth = d.Depth
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}
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if maxDepth < d.Depth {
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maxDepth = d.Depth
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}
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}
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maxHeight := maxDepth - minDepth + 1
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if n == 0 {
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return nil
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}
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// create list
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list := make([]DirEntry, 0, n)
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for d := range root.iter(skipRoot) {
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if filter != nil && !filter(d.Path) {
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continue
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}
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var p DirEntry
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p.Depth = d.Depth - minDepth
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p.Height = maxHeight - p.Depth
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// the path is relative to root.Path - remove the root.Path
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// prefix (the prefix should always be present but avoid
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// crashes and check)
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path := strings.TrimPrefix(d.Path, root.Path)
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// remove leading separator if any - path must be relative
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path = strings.TrimPrefix(path, "/")
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p.Path = path
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p.Name = d.Name
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p.HasPkg = d.HasPkg
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p.Synopsis = d.Synopsis
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p.RootType = d.RootType
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list = append(list, p)
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}
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return &DirList{maxHeight, list}
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}
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