// Copyright 2011 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 generate implements the ``go generate'' command. package generate import ( "bufio" "bytes" "context" "fmt" "go/parser" "go/token" exec "internal/execabs" "io" "log" "os" "path/filepath" "regexp" "strconv" "strings" "cmd/go/internal/base" "cmd/go/internal/cfg" "cmd/go/internal/load" "cmd/go/internal/modload" "cmd/go/internal/str" "cmd/go/internal/work" ) var CmdGenerate = &base.Command{ Run: runGenerate, UsageLine: "go generate [-run regexp] [-n] [-v] [-x] [build flags] [file.go... | packages]", Short: "generate Go files by processing source", Long: ` Generate runs commands described by directives within existing files. Those commands can run any process but the intent is to create or update Go source files. Go generate is never run automatically by go build, go test, and so on. It must be run explicitly. Go generate scans the file for directives, which are lines of the form, //go:generate command argument... (note: no leading spaces and no space in "//go") where command is the generator to be run, corresponding to an executable file that can be run locally. It must either be in the shell path (gofmt), a fully qualified path (/usr/you/bin/mytool), or a command alias, described below. Note that go generate does not parse the file, so lines that look like directives in comments or multiline strings will be treated as directives. The arguments to the directive are space-separated tokens or double-quoted strings passed to the generator as individual arguments when it is run. Quoted strings use Go syntax and are evaluated before execution; a quoted string appears as a single argument to the generator. To convey to humans and machine tools that code is generated, generated source should have a line that matches the following regular expression (in Go syntax): ^// Code generated .* DO NOT EDIT\.$ This line must appear before the first non-comment, non-blank text in the file. Go generate sets several variables when it runs the generator: $GOARCH The execution architecture (arm, amd64, etc.) $GOOS The execution operating system (linux, windows, etc.) $GOFILE The base name of the file. $GOLINE The line number of the directive in the source file. $GOPACKAGE The name of the package of the file containing the directive. $DOLLAR A dollar sign. Other than variable substitution and quoted-string evaluation, no special processing such as "globbing" is performed on the command line. As a last step before running the command, any invocations of any environment variables with alphanumeric names, such as $GOFILE or $HOME, are expanded throughout the command line. The syntax for variable expansion is $NAME on all operating systems. Due to the order of evaluation, variables are expanded even inside quoted strings. If the variable NAME is not set, $NAME expands to the empty string. A directive of the form, //go:generate -command xxx args... specifies, for the remainder of this source file only, that the string xxx represents the command identified by the arguments. This can be used to create aliases or to handle multiword generators. For example, //go:generate -command foo go tool foo specifies that the command "foo" represents the generator "go tool foo". Generate processes packages in the order given on the command line, one at a time. If the command line lists .go files from a single directory, they are treated as a single package. Within a package, generate processes the source files in a package in file name order, one at a time. Within a source file, generate runs generators in the order they appear in the file, one at a time. The go generate tool also sets the build tag "generate" so that files may be examined by go generate but ignored during build. For packages with invalid code, generate processes only source files with a valid package clause. If any generator returns an error exit status, "go generate" skips all further processing for that package. The generator is run in the package's source directory. Go generate accepts one specific flag: -run="" if non-empty, specifies a regular expression to select directives whose full original source text (excluding any trailing spaces and final newline) matches the expression. It also accepts the standard build flags including -v, -n, and -x. The -v flag prints the names of packages and files as they are processed. The -n flag prints commands that would be executed. The -x flag prints commands as they are executed. For more about build flags, see 'go help build'. For more about specifying packages, see 'go help packages'. `, } var ( generateRunFlag string // generate -run flag generateRunRE *regexp.Regexp // compiled expression for -run ) func init() { work.AddBuildFlags(CmdGenerate, work.DefaultBuildFlags) CmdGenerate.Flag.StringVar(&generateRunFlag, "run", "", "") } func runGenerate(ctx context.Context, cmd *base.Command, args []string) { if generateRunFlag != "" { var err error generateRunRE, err = regexp.Compile(generateRunFlag) if err != nil { log.Fatalf("generate: %s", err) } } cfg.BuildContext.BuildTags = append(cfg.BuildContext.BuildTags, "generate") // Even if the arguments are .go files, this loop suffices. printed := false pkgOpts := load.PackageOpts{IgnoreImports: true} for _, pkg := range load.PackagesAndErrors(ctx, pkgOpts, args) { if modload.Enabled() && pkg.Module != nil && !pkg.Module.Main { if !printed { fmt.Fprintf(os.Stderr, "go: not generating in packages in dependency modules\n") printed = true } continue } for _, file := range pkg.InternalGoFiles() { if !generate(file) { break } } for _, file := range pkg.InternalXGoFiles() { if !generate(file) { break } } } } // generate runs the generation directives for a single file. func generate(absFile string) bool { src, err := os.ReadFile(absFile) if err != nil { log.Fatalf("generate: %s", err) } // Parse package clause filePkg, err := parser.ParseFile(token.NewFileSet(), "", src, parser.PackageClauseOnly) if err != nil { // Invalid package clause - ignore file. return true } g := &Generator{ r: bytes.NewReader(src), path: absFile, pkg: filePkg.Name.String(), commands: make(map[string][]string), } return g.run() } // A Generator represents the state of a single Go source file // being scanned for generator commands. type Generator struct { r io.Reader path string // full rooted path name. dir string // full rooted directory of file. file string // base name of file. pkg string commands map[string][]string lineNum int // current line number. env []string } // run runs the generators in the current file. func (g *Generator) run() (ok bool) { // Processing below here calls g.errorf on failure, which does panic(stop). // If we encounter an error, we abort the package. defer func() { e := recover() if e != nil { ok = false if e != stop { panic(e) } base.SetExitStatus(1) } }() g.dir, g.file = filepath.Split(g.path) g.dir = filepath.Clean(g.dir) // No final separator please. if cfg.BuildV { fmt.Fprintf(os.Stderr, "%s\n", base.ShortPath(g.path)) } // Scan for lines that start "//go:generate". // Can't use bufio.Scanner because it can't handle long lines, // which are likely to appear when using generate. input := bufio.NewReader(g.r) var err error // One line per loop. for { g.lineNum++ // 1-indexed. var buf []byte buf, err = input.ReadSlice('\n') if err == bufio.ErrBufferFull { // Line too long - consume and ignore. if isGoGenerate(buf) { g.errorf("directive too long") } for err == bufio.ErrBufferFull { _, err = input.ReadSlice('\n') } if err != nil { break } continue } if err != nil { // Check for marker at EOF without final \n. if err == io.EOF && isGoGenerate(buf) { err = io.ErrUnexpectedEOF } break } if !isGoGenerate(buf) { continue } if generateRunFlag != "" { if !generateRunRE.Match(bytes.TrimSpace(buf)) { continue } } g.setEnv() words := g.split(string(buf)) if len(words) == 0 { g.errorf("no arguments to directive") } if words[0] == "-command" { g.setShorthand(words) continue } // Run the command line. if cfg.BuildN || cfg.BuildX { fmt.Fprintf(os.Stderr, "%s\n", strings.Join(words, " ")) } if cfg.BuildN { continue } g.exec(words) } if err != nil && err != io.EOF { g.errorf("error reading %s: %s", base.ShortPath(g.path), err) } return true } func isGoGenerate(buf []byte) bool { return bytes.HasPrefix(buf, []byte("//go:generate ")) || bytes.HasPrefix(buf, []byte("//go:generate\t")) } // setEnv sets the extra environment variables used when executing a // single go:generate command. func (g *Generator) setEnv() { g.env = []string{ "GOARCH=" + cfg.BuildContext.GOARCH, "GOOS=" + cfg.BuildContext.GOOS, "GOFILE=" + g.file, "GOLINE=" + strconv.Itoa(g.lineNum), "GOPACKAGE=" + g.pkg, "DOLLAR=" + "$", } g.env = base.AppendPWD(g.env, g.dir) } // split breaks the line into words, evaluating quoted // strings and evaluating environment variables. // The initial //go:generate element is present in line. func (g *Generator) split(line string) []string { // Parse line, obeying quoted strings. var words []string line = line[len("//go:generate ") : len(line)-1] // Drop preamble and final newline. // There may still be a carriage return. if len(line) > 0 && line[len(line)-1] == '\r' { line = line[:len(line)-1] } // One (possibly quoted) word per iteration. Words: for { line = strings.TrimLeft(line, " \t") if len(line) == 0 { break } if line[0] == '"' { for i := 1; i < len(line); i++ { c := line[i] // Only looking for ASCII so this is OK. switch c { case '\\': if i+1 == len(line) { g.errorf("bad backslash") } i++ // Absorb next byte (If it's a multibyte we'll get an error in Unquote). case '"': word, err := strconv.Unquote(line[0 : i+1]) if err != nil { g.errorf("bad quoted string") } words = append(words, word) line = line[i+1:] // Check the next character is space or end of line. if len(line) > 0 && line[0] != ' ' && line[0] != '\t' { g.errorf("expect space after quoted argument") } continue Words } } g.errorf("mismatched quoted string") } i := strings.IndexAny(line, " \t") if i < 0 { i = len(line) } words = append(words, line[0:i]) line = line[i:] } // Substitute command if required. if len(words) > 0 && g.commands[words[0]] != nil { // Replace 0th word by command substitution. // // Force a copy of the command definition to // ensure words doesn't end up as a reference // to the g.commands content. tmpCmdWords := append([]string(nil), (g.commands[words[0]])...) words = append(tmpCmdWords, words[1:]...) } // Substitute environment variables. for i, word := range words { words[i] = os.Expand(word, g.expandVar) } return words } var stop = fmt.Errorf("error in generation") // errorf logs an error message prefixed with the file and line number. // It then exits the program (with exit status 1) because generation stops // at the first error. func (g *Generator) errorf(format string, args ...any) { fmt.Fprintf(os.Stderr, "%s:%d: %s\n", base.ShortPath(g.path), g.lineNum, fmt.Sprintf(format, args...)) panic(stop) } // expandVar expands the $XXX invocation in word. It is called // by os.Expand. func (g *Generator) expandVar(word string) string { w := word + "=" for _, e := range g.env { if strings.HasPrefix(e, w) { return e[len(w):] } } return os.Getenv(word) } // setShorthand installs a new shorthand as defined by a -command directive. func (g *Generator) setShorthand(words []string) { // Create command shorthand. if len(words) == 1 { g.errorf("no command specified for -command") } command := words[1] if g.commands[command] != nil { g.errorf("command %q multiply defined", command) } g.commands[command] = words[2:len(words):len(words)] // force later append to make copy } // exec runs the command specified by the argument. The first word is // the command name itself. func (g *Generator) exec(words []string) { cmd := exec.Command(words[0], words[1:]...) // Standard in and out of generator should be the usual. cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr // Run the command in the package directory. cmd.Dir = g.dir cmd.Env = str.StringList(cfg.OrigEnv, g.env) err := cmd.Run() if err != nil { g.errorf("running %q: %s", words[0], err) } }