// 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 godoc import ( "fmt" "go/ast" "go/build" "io" "log" "os" pathpkg "path" "path/filepath" "regexp" "strings" "golang.org/x/tools/godoc/vfs" ) const ( target = "/target" cmdPrefix = "cmd/" srcPrefix = "src/" toolsPath = "golang.org/x/tools/cmd/" ) // CommandLine returns godoc results to w. // Note that it may add a /target path to fs. func CommandLine(w io.Writer, fs vfs.NameSpace, pres *Presentation, args []string) error { path := args[0] srcMode := pres.SrcMode cmdMode := strings.HasPrefix(path, cmdPrefix) if strings.HasPrefix(path, srcPrefix) { path = strings.TrimPrefix(path, srcPrefix) srcMode = true } var abspath, relpath string if cmdMode { path = strings.TrimPrefix(path, cmdPrefix) } else { abspath, relpath = paths(fs, pres, path) } var mode PageInfoMode if relpath == builtinPkgPath { // the fake built-in package contains unexported identifiers mode = NoFiltering | NoTypeAssoc } if pres.AllMode { mode |= NoFiltering } if srcMode { // only filter exports if we don't have explicit command-line filter arguments if len(args) > 1 { mode |= NoFiltering } mode |= ShowSource } // First, try as package unless forced as command. var info *PageInfo if !cmdMode { info = pres.GetPkgPageInfo(abspath, relpath, mode) } // Second, try as command (if the path is not absolute). var cinfo *PageInfo if !filepath.IsAbs(path) { // First try go.tools/cmd. abspath = pathpkg.Join(pres.PkgFSRoot(), toolsPath+path) cinfo = pres.GetCmdPageInfo(abspath, relpath, mode) if cinfo.IsEmpty() { // Then try $GOROOT/src/cmd. abspath = pathpkg.Join(pres.CmdFSRoot(), cmdPrefix, path) cinfo = pres.GetCmdPageInfo(abspath, relpath, mode) } } // determine what to use if info == nil || info.IsEmpty() { if cinfo != nil && !cinfo.IsEmpty() { // only cinfo exists - switch to cinfo info = cinfo } } else if cinfo != nil && !cinfo.IsEmpty() { // both info and cinfo exist - use cinfo if info // contains only subdirectory information if info.PAst == nil && info.PDoc == nil { info = cinfo } else if relpath != target { // The above check handles the case where an operating system path // is provided (see documentation for paths below). In that case, // relpath is set to "/target" (in anticipation of accessing packages there), // and is therefore not expected to match a command. fmt.Fprintf(w, "use 'godoc %s%s' for documentation on the %s command \n\n", cmdPrefix, relpath, relpath) } } if info == nil { return fmt.Errorf("%s: no such directory or package", args[0]) } if info.Err != nil { return info.Err } if info.PDoc != nil && info.PDoc.ImportPath == target { // Replace virtual /target with actual argument from command line. info.PDoc.ImportPath = args[0] } // If we have more than one argument, use the remaining arguments for filtering. if len(args) > 1 { info.IsFiltered = true filterInfo(args[1:], info) } packageText := pres.PackageText if pres.HTMLMode { packageText = pres.PackageHTML } if err := packageText.Execute(w, info); err != nil { return err } return nil } // paths determines the paths to use. // // If we are passed an operating system path like . or ./foo or /foo/bar or c:\mysrc, // we need to map that path somewhere in the fs name space so that routines // like getPageInfo will see it. We use the arbitrarily-chosen virtual path "/target" // for this. That is, if we get passed a directory like the above, we map that // directory so that getPageInfo sees it as /target. // Returns the absolute and relative paths. func paths(fs vfs.NameSpace, pres *Presentation, path string) (abspath, relpath string) { if filepath.IsAbs(path) { fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace) return target, target } if build.IsLocalImport(path) { cwd, err := os.Getwd() if err != nil { log.Printf("error while getting working directory: %v", err) } path = filepath.Join(cwd, path) fs.Bind(target, vfs.OS(path), "/", vfs.BindReplace) return target, target } bp, err := build.Import(path, "", build.FindOnly) if err != nil { log.Printf("error while importing build package: %v", err) } if bp.Dir != "" && bp.ImportPath != "" { fs.Bind(target, vfs.OS(bp.Dir), "/", vfs.BindReplace) return target, bp.ImportPath } return pathpkg.Join(pres.PkgFSRoot(), path), path } // filterInfo updates info to include only the nodes that match the given // filter args. func filterInfo(args []string, info *PageInfo) { rx, err := makeRx(args) if err != nil { log.Fatalf("illegal regular expression from %v: %v", args, err) } filter := func(s string) bool { return rx.MatchString(s) } switch { case info.PAst != nil: newPAst := map[string]*ast.File{} for name, a := range info.PAst { cmap := ast.NewCommentMap(info.FSet, a, a.Comments) a.Comments = []*ast.CommentGroup{} // remove all comments. ast.FilterFile(a, filter) if len(a.Decls) > 0 { newPAst[name] = a } for _, d := range a.Decls { // add back the comments associated with d only comments := cmap.Filter(d).Comments() a.Comments = append(a.Comments, comments...) } } info.PAst = newPAst // add only matching files. case info.PDoc != nil: info.PDoc.Filter(filter) } } // Does s look like a regular expression? func isRegexp(s string) bool { return strings.ContainsAny(s, ".(|)*+?^$[]") } // Make a regular expression of the form // names[0]|names[1]|...names[len(names)-1]. // Returns an error if the regular expression is illegal. func makeRx(names []string) (*regexp.Regexp, error) { if len(names) == 0 { return nil, fmt.Errorf("no expression provided") } s := "" for i, name := range names { if i > 0 { s += "|" } if isRegexp(name) { s += name } else { s += "^" + name + "$" // must match exactly } } return regexp.Compile(s) }