// Copyright 2015 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. // Doc (usually run as go doc) accepts zero, one or two arguments. // // Zero arguments: // // go doc // // Show the documentation for the package in the current directory. // // One argument: // // go doc // go doc [.] // go doc [.][.] // go doc [.][.] // // The first item in this list that succeeds is the one whose documentation // is printed. If there is a symbol but no package, the package in the current // directory is chosen. However, if the argument begins with a capital // letter it is always assumed to be a symbol in the current directory. // // Two arguments: // // go doc [.] // // Show the documentation for the package, symbol, and method or field. The // first argument must be a full package path. This is similar to the // command-line usage for the godoc command. // // For commands, unless the -cmd flag is present "go doc command" // shows only the package-level docs for the package. // // The -src flag causes doc to print the full source code for the symbol, such // as the body of a struct, function or method. // // The -all flag causes doc to print all documentation for the package and // all its visible symbols. The argument must identify a package. // // For complete documentation, run "go help doc". package main import ( "bytes" "flag" "fmt" "go/build" "go/token" "io" "log" "os" "path" "path/filepath" "strings" ) var ( unexported bool // -u flag matchCase bool // -c flag showAll bool // -all flag showCmd bool // -cmd flag showSrc bool // -src flag short bool // -short flag ) // usage is a replacement usage function for the flags package. func usage() { fmt.Fprintf(os.Stderr, "Usage of [go] doc:\n") fmt.Fprintf(os.Stderr, "\tgo doc\n") fmt.Fprintf(os.Stderr, "\tgo doc \n") fmt.Fprintf(os.Stderr, "\tgo doc [.]\n") fmt.Fprintf(os.Stderr, "\tgo doc [.][.]\n") fmt.Fprintf(os.Stderr, "\tgo doc [.][.]\n") fmt.Fprintf(os.Stderr, "\tgo doc [.]\n") fmt.Fprintf(os.Stderr, "For more information run\n") fmt.Fprintf(os.Stderr, "\tgo help doc\n\n") fmt.Fprintf(os.Stderr, "Flags:\n") flag.PrintDefaults() os.Exit(2) } func main() { log.SetFlags(0) log.SetPrefix("doc: ") dirsInit() err := do(os.Stdout, flag.CommandLine, os.Args[1:]) if err != nil { log.Fatal(err) } } // do is the workhorse, broken out of main to make testing easier. func do(writer io.Writer, flagSet *flag.FlagSet, args []string) (err error) { flagSet.Usage = usage unexported = false matchCase = false flagSet.BoolVar(&unexported, "u", false, "show unexported symbols as well as exported") flagSet.BoolVar(&matchCase, "c", false, "symbol matching honors case (paths not affected)") flagSet.BoolVar(&showAll, "all", false, "show all documentation for package") flagSet.BoolVar(&showCmd, "cmd", false, "show symbols with package docs even if package is a command") flagSet.BoolVar(&showSrc, "src", false, "show source code for symbol") flagSet.BoolVar(&short, "short", false, "one-line representation for each symbol") flagSet.Parse(args) var paths []string var symbol, method string // Loop until something is printed. dirs.Reset() for i := 0; ; i++ { buildPackage, userPath, sym, more := parseArgs(flagSet.Args()) if i > 0 && !more { // Ignore the "more" bit on the first iteration. return failMessage(paths, symbol, method) } if buildPackage == nil { return fmt.Errorf("no such package: %s", userPath) } // The builtin package needs special treatment: its symbols are lower // case but we want to see them, always. if buildPackage.ImportPath == "builtin" { unexported = true } symbol, method = parseSymbol(sym) pkg := parsePackage(writer, buildPackage, userPath) paths = append(paths, pkg.prettyPath()) defer func() { pkg.flush() e := recover() if e == nil { return } pkgError, ok := e.(PackageError) if ok { err = pkgError return } panic(e) }() // We have a package. if showAll && symbol == "" { pkg.allDoc() return } switch { case symbol == "": pkg.packageDoc() // The package exists, so we got some output. return case method == "": if pkg.symbolDoc(symbol) { return } default: if pkg.methodDoc(symbol, method) { return } if pkg.fieldDoc(symbol, method) { return } } } } // failMessage creates a nicely formatted error message when there is no result to show. func failMessage(paths []string, symbol, method string) error { var b bytes.Buffer if len(paths) > 1 { b.WriteString("s") } b.WriteString(" ") for i, path := range paths { if i > 0 { b.WriteString(", ") } b.WriteString(path) } if method == "" { return fmt.Errorf("no symbol %s in package%s", symbol, &b) } return fmt.Errorf("no method or field %s.%s in package%s", symbol, method, &b) } // parseArgs analyzes the arguments (if any) and returns the package // it represents, the part of the argument the user used to identify // the path (or "" if it's the current package) and the symbol // (possibly with a .method) within that package. // parseSymbol is used to analyze the symbol itself. // The boolean final argument reports whether it is possible that // there may be more directories worth looking at. It will only // be true if the package path is a partial match for some directory // and there may be more matches. For example, if the argument // is rand.Float64, we must scan both crypto/rand and math/rand // to find the symbol, and the first call will return crypto/rand, true. func parseArgs(args []string) (pkg *build.Package, path, symbol string, more bool) { wd, err := os.Getwd() if err != nil { log.Fatal(err) } if len(args) == 0 { // Easy: current directory. return importDir(wd), "", "", false } arg := args[0] // We have an argument. If it is a directory name beginning with . or .., // use the absolute path name. This discriminates "./errors" from "errors" // if the current directory contains a non-standard errors package. if isDotSlash(arg) { arg = filepath.Join(wd, arg) } switch len(args) { default: usage() case 1: // Done below. case 2: // Package must be findable and importable. pkg, err := build.Import(args[0], wd, build.ImportComment) if err == nil { return pkg, args[0], args[1], false } for { packagePath, ok := findNextPackage(arg) if !ok { break } if pkg, err := build.ImportDir(packagePath, build.ImportComment); err == nil { return pkg, arg, args[1], true } } return nil, args[0], args[1], false } // Usual case: one argument. // If it contains slashes, it begins with either a package path // or an absolute directory. // First, is it a complete package path as it is? If so, we are done. // This avoids confusion over package paths that have other // package paths as their prefix. var importErr error if filepath.IsAbs(arg) { pkg, importErr = build.ImportDir(arg, build.ImportComment) if importErr == nil { return pkg, arg, "", false } } else { pkg, importErr = build.Import(arg, wd, build.ImportComment) if importErr == nil { return pkg, arg, "", false } } // Another disambiguator: If the argument starts with an upper // case letter, it can only be a symbol in the current directory. // Kills the problem caused by case-insensitive file systems // matching an upper case name as a package name. if !strings.ContainsAny(arg, `/\`) && token.IsExported(arg) { pkg, err := build.ImportDir(".", build.ImportComment) if err == nil { return pkg, "", arg, false } } // If it has a slash, it must be a package path but there is a symbol. // It's the last package path we care about. slash := strings.LastIndex(arg, "/") // There may be periods in the package path before or after the slash // and between a symbol and method. // Split the string at various periods to see what we find. // In general there may be ambiguities but this should almost always // work. var period int // slash+1: if there's no slash, the value is -1 and start is 0; otherwise // start is the byte after the slash. for start := slash + 1; start < len(arg); start = period + 1 { period = strings.Index(arg[start:], ".") symbol := "" if period < 0 { period = len(arg) } else { period += start symbol = arg[period+1:] } // Have we identified a package already? pkg, err := build.Import(arg[0:period], wd, build.ImportComment) if err == nil { return pkg, arg[0:period], symbol, false } // See if we have the basename or tail of a package, as in json for encoding/json // or ivy/value for robpike.io/ivy/value. pkgName := arg[:period] for { path, ok := findNextPackage(pkgName) if !ok { break } if pkg, err = build.ImportDir(path, build.ImportComment); err == nil { return pkg, arg[0:period], symbol, true } } dirs.Reset() // Next iteration of for loop must scan all the directories again. } // If it has a slash, we've failed. if slash >= 0 { // build.Import should always include the path in its error message, // and we should avoid repeating it. Unfortunately, build.Import doesn't // return a structured error. That can't easily be fixed, since it // invokes 'go list' and returns the error text from the loaded package. // TODO(golang.org/issue/34750): load using golang.org/x/tools/go/packages // instead of go/build. importErrStr := importErr.Error() if strings.Contains(importErrStr, arg[:period]) { log.Fatal(importErrStr) } else { log.Fatalf("no such package %s: %s", arg[:period], importErrStr) } } // Guess it's a symbol in the current directory. return importDir(wd), "", arg, false } // dotPaths lists all the dotted paths legal on Unix-like and // Windows-like file systems. We check them all, as the chance // of error is minute and even on Windows people will use ./ // sometimes. var dotPaths = []string{ `./`, `../`, `.\`, `..\`, } // isDotSlash reports whether the path begins with a reference // to the local . or .. directory. func isDotSlash(arg string) bool { if arg == "." || arg == ".." { return true } for _, dotPath := range dotPaths { if strings.HasPrefix(arg, dotPath) { return true } } return false } // importDir is just an error-catching wrapper for build.ImportDir. func importDir(dir string) *build.Package { pkg, err := build.ImportDir(dir, build.ImportComment) if err != nil { log.Fatal(err) } return pkg } // parseSymbol breaks str apart into a symbol and method. // Both may be missing or the method may be missing. // If present, each must be a valid Go identifier. func parseSymbol(str string) (symbol, method string) { if str == "" { return } elem := strings.Split(str, ".") switch len(elem) { case 1: case 2: method = elem[1] default: log.Printf("too many periods in symbol specification") usage() } symbol = elem[0] return } // isExported reports whether the name is an exported identifier. // If the unexported flag (-u) is true, isExported returns true because // it means that we treat the name as if it is exported. func isExported(name string) bool { return unexported || token.IsExported(name) } // findNextPackage returns the next full file name path that matches the // (perhaps partial) package path pkg. The boolean reports if any match was found. func findNextPackage(pkg string) (string, bool) { if filepath.IsAbs(pkg) { if dirs.offset == 0 { dirs.offset = -1 return pkg, true } return "", false } if pkg == "" || token.IsExported(pkg) { // Upper case symbol cannot be a package name. return "", false } pkg = path.Clean(pkg) pkgSuffix := "/" + pkg for { d, ok := dirs.Next() if !ok { return "", false } if d.importPath == pkg || strings.HasSuffix(d.importPath, pkgSuffix) { return d.dir, true } } } var buildCtx = build.Default // splitGopath splits $GOPATH into a list of roots. func splitGopath() []string { return filepath.SplitList(buildCtx.GOPATH) }