package complete import ( "io/ioutil" "os" "path/filepath" "strings" ) // PredictDirs will search for directories in the given started to be typed // path, if no path was started to be typed, it will complete to directories // in the current working directory. func PredictDirs(pattern string) Predictor { return files(pattern, false) } // PredictFiles will search for files matching the given pattern in the started to // be typed path, if no path was started to be typed, it will complete to files that // match the pattern in the current working directory. // To match any file, use "*" as pattern. To match go files use "*.go", and so on. func PredictFiles(pattern string) Predictor { return files(pattern, true) } func files(pattern string, allowFiles bool) PredictFunc { // search for files according to arguments, // if only one directory has matched the result, search recursively into // this directory to give more results. return func(a Args) (prediction []string) { prediction = predictFiles(a, pattern, allowFiles) // if the number of prediction is not 1, we either have many results or // have no results, so we return it. if len(prediction) != 1 { return } // only try deeper, if the one item is a directory if stat, err := os.Stat(prediction[0]); err != nil || !stat.IsDir() { return } a.Last = prediction[0] return predictFiles(a, pattern, allowFiles) } } func predictFiles(a Args, pattern string, allowFiles bool) []string { if strings.HasSuffix(a.Last, "/..") { return nil } dir := directory(a.Last) files := listFiles(dir, pattern, allowFiles) // add dir if match files = append(files, dir) return PredictFilesSet(files).Predict(a) } // directory gives the directory of the given partial path // in case that it is not, we fall back to the current directory. func directory(path string) string { if info, err := os.Stat(path); err == nil && info.IsDir() { return fixPathForm(path, path) } dir := filepath.Dir(path) if info, err := os.Stat(dir); err == nil && info.IsDir() { return fixPathForm(path, dir) } return "./" } // PredictFilesSet predict according to file rules to a given set of file names func PredictFilesSet(files []string) PredictFunc { return func(a Args) (prediction []string) { // add all matching files to prediction for _, f := range files { f = fixPathForm(a.Last, f) // test matching of file to the argument if matchFile(f, a.Last) { prediction = append(prediction, f) } } return } } func listFiles(dir, pattern string, allowFiles bool) []string { // set of all file names m := map[string]bool{} // list files if files, err := filepath.Glob(filepath.Join(dir, pattern)); err == nil { for _, f := range files { if stat, err := os.Stat(f); err != nil || stat.IsDir() || allowFiles { m[f] = true } } } // list directories if dirs, err := ioutil.ReadDir(dir); err == nil { for _, d := range dirs { if d.IsDir() { m[filepath.Join(dir, d.Name())] = true } } } list := make([]string, 0, len(m)) for k := range m { list = append(list, k) } return list } // MatchFile returns true if prefix can match the file func matchFile(file, prefix string) bool { // special case for current directory completion if file == "./" && (prefix == "." || prefix == "") { return true } if prefix == "." && strings.HasPrefix(file, ".") { return true } file = strings.TrimPrefix(file, "./") prefix = strings.TrimPrefix(prefix, "./") return strings.HasPrefix(file, prefix) } // fixPathForm changes a file name to a relative name func fixPathForm(last string, file string) string { // get wording directory for relative name workDir, err := os.Getwd() if err != nil { return file } abs, err := filepath.Abs(file) if err != nil { return file } // if last is absolute, return path as absolute if filepath.IsAbs(last) { return fixDirPath(abs) } rel, err := filepath.Rel(workDir, abs) if err != nil { return file } // fix ./ prefix of path if rel != "." && strings.HasPrefix(last, ".") { rel = "./" + rel } return fixDirPath(rel) } func fixDirPath(path string) string { info, err := os.Stat(path) if err == nil && info.IsDir() && !strings.HasSuffix(path, "/") { path += "/" } return path }