src/cmd/vet/main.go - go - Git at Google

 // Copyright 2010 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.

 // Vet is a simple checker for static errors in Go source code.
 // See doc.go for more information.

 package main

 import (
 	"bytes"
 	"encoding/gob"
 	"encoding/json"
 	"flag"
 	"fmt"
 	"go/ast"
 	"go/build"
 	"go/importer"
 	"go/parser"
 	"go/printer"
 	"go/token"
 	"go/types"
 	"io"
 	"io/ioutil"
 	"os"
 	"path/filepath"
 	"sort"
 	"strconv"
 	"strings"

 	"cmd/internal/objabi"
 )

 // Important! If you add flags here, make sure to update cmd/go/internal/vet/vetflag.go.

 var (
 	verbose = flag.Bool("v", false, "verbose")
 	source  = flag.Bool("source", false, "import from source instead of compiled object files")
 	tags    = flag.String("tags", "", "space-separated list of build tags to apply when parsing")
 	tagList = []string{} // exploded version of tags flag; set in main

 	vcfg          vetConfig
 	mustTypecheck bool
 )

 var exitCode = 0

 // "-all" flag enables all non-experimental checks
 var all = triStateFlag("all", unset, "enable all non-experimental checks")

 // Flags to control which individual checks to perform.
 var report = map[string]*triState{
 	// Only unusual checks are written here.
 	// Most checks that operate during the AST walk are added by register.
 	"asmdecl":   triStateFlag("asmdecl", unset, "check assembly against Go declarations"),
 	"buildtags": triStateFlag("buildtags", unset, "check that +build tags are valid"),
 }

 // experimental records the flags enabling experimental features. These must be
 // requested explicitly; they are not enabled by -all.
 var experimental = map[string]bool{}

 // setTrueCount record how many flags are explicitly set to true.
 var setTrueCount int

 // dirsRun and filesRun indicate whether the vet is applied to directory or
 // file targets. The distinction affects which checks are run.
 var dirsRun, filesRun bool

 // includesNonTest indicates whether the vet is applied to non-test targets.
 // Certain checks are relevant only if they touch both test and non-test files.
 var includesNonTest bool

 // A triState is a boolean that knows whether it has been set to either true or false.
 // It is used to identify if a flag appears; the standard boolean flag cannot
 // distinguish missing from unset. It also satisfies flag.Value.
 type triState int

 const (
 	unset triState = iota
 	setTrue
 	setFalse
 )

 func triStateFlag(name string, value triState, usage string) *triState {
 	flag.Var(&value, name, usage)
 	return &value
 }

 // triState implements flag.Value, flag.Getter, and flag.boolFlag.
 // They work like boolean flags: we can say vet -printf as well as vet -printf=true
 func (ts *triState) Get() interface{} {
 	return *ts == setTrue
 }

 func (ts triState) isTrue() bool {
 	return ts == setTrue
 }

 func (ts *triState) Set(value string) error {
 	b, err := strconv.ParseBool(value)
 	if err != nil {
 		return err
 	}
 	if b {
 		*ts = setTrue
 		setTrueCount++
 	} else {
 		*ts = setFalse
 	}
 	return nil
 }

 func (ts *triState) String() string {
 	switch *ts {
 	case unset:
 		return "true" // An unset flag will be set by -all, so defaults to true.
 	case setTrue:
 		return "true"
 	case setFalse:
 		return "false"
 	}
 	panic("not reached")
 }

 func (ts triState) IsBoolFlag() bool {
 	return true
 }

 // vet tells whether to report errors for the named check, a flag name.
 func vet(name string) bool {
 	return report[name].isTrue()
 }

 // setExit sets the value for os.Exit when it is called, later. It
 // remembers the highest value.
 func setExit(err int) {
 	if err > exitCode {
 		exitCode = err
 	}
 }

 var (
 	// Each of these vars has a corresponding case in (*File).Visit.
 	assignStmt    *ast.AssignStmt
 	binaryExpr    *ast.BinaryExpr
 	callExpr      *ast.CallExpr
 	compositeLit  *ast.CompositeLit
 	exprStmt      *ast.ExprStmt
 	forStmt       *ast.ForStmt
 	funcDecl      *ast.FuncDecl
 	funcLit       *ast.FuncLit
 	genDecl       *ast.GenDecl
 	interfaceType *ast.InterfaceType
 	rangeStmt     *ast.RangeStmt
 	returnStmt    *ast.ReturnStmt
 	structType    *ast.StructType

 	// checkers is a two-level map.
 	// The outer level is keyed by a nil pointer, one of the AST vars above.
 	// The inner level is keyed by checker name.
 	checkers    = make(map[ast.Node]map[string]func(*File, ast.Node))
 	pkgCheckers = make(map[string]func(*Package))
 	exporters   = make(map[string]func() interface{})
 )

 // The exporters data as written to the vetx output file.
 type vetxExport struct {
 	Name string
 	Data interface{}
 }

 // Vet can provide its own "export information"
 // about package A to future invocations of vet
 // on packages importing A. If B imports A,
 // then running "go vet B" actually invokes vet twice:
 // first, it runs vet on A, in "vetx-only" mode, which
 // skips most checks and only computes export data
 // describing A. Then it runs vet on B, making A's vetx
 // data available for consultation. The vet of B
 // computes vetx data for B in addition to its
 // usual vet checks.

 // register registers the named check function,
 // to be called with AST nodes of the given types.
 // The registered functions are not called in vetx-only mode.
 func register(name, usage string, fn func(*File, ast.Node), types ...ast.Node) {
 	report[name] = triStateFlag(name, unset, usage)
 	for _, typ := range types {
 		m := checkers[typ]
 		if m == nil {
 			m = make(map[string]func(*File, ast.Node))
 			checkers[typ] = m
 		}
 		m[name] = fn
 	}
 }

 // registerPkgCheck registers a package-level checking function,
 // to be invoked with the whole package being vetted
 // before any of the per-node handlers.
 // The registered function fn is called even in vetx-only mode
 // (see comment above), so fn must take care not to report
 // errors when vcfg.VetxOnly is true.
 func registerPkgCheck(name string, fn func(*Package)) {
 	pkgCheckers[name] = fn
 }

 // registerExport registers a function to return vetx export data
 // that should be saved and provided to future invocations of vet
 // when checking packages importing this one.
 // The value returned by fn should be nil or else valid to encode using gob.
 // Typically a registerExport call is paired with a call to gob.Register.
 func registerExport(name string, fn func() interface{}) {
 	exporters[name] = fn
 }

 // Usage is a replacement usage function for the flags package.
 func Usage() {
 	fmt.Fprintf(os.Stderr, "Usage of vet:\n")
 	fmt.Fprintf(os.Stderr, "\tvet [flags] directory...\n")
 	fmt.Fprintf(os.Stderr, "\tvet [flags] files... # Must be a single package\n")
 	fmt.Fprintf(os.Stderr, "By default, -all is set and all non-experimental checks are run.\n")
 	fmt.Fprintf(os.Stderr, "For more information run\n")
 	fmt.Fprintf(os.Stderr, "\tgo doc cmd/vet\n\n")
 	fmt.Fprintf(os.Stderr, "Flags:\n")
 	flag.PrintDefaults()
 	os.Exit(2)
 }

 // File is a wrapper for the state of a file used in the parser.
 // The parse tree walkers are all methods of this type.
 type File struct {
 	pkg     *Package
 	fset    *token.FileSet
 	name    string
 	content []byte
 	file    *ast.File
 	b       bytes.Buffer // for use by methods

 	// Parsed package "foo" when checking package "foo_test"
 	basePkg *Package

 	// The keys are the objects that are receivers of a "String()
 	// string" method. The value reports whether the method has a
 	// pointer receiver.
 	// This is used by the recursiveStringer method in print.go.
 	stringerPtrs map[*ast.Object]bool

 	// Registered checkers to run.
 	checkers map[ast.Node][]func(*File, ast.Node)

 	// Unreachable nodes; can be ignored in shift check.
 	dead map[ast.Node]bool
 }

 func main() {
 	objabi.AddVersionFlag()
 	flag.Usage = Usage
 	flag.Parse()

 	// If any flag is set, we run only those checks requested.
 	// If all flag is set true or if no flags are set true, set all the non-experimental ones
 	// not explicitly set (in effect, set the "-all" flag).
 	if setTrueCount == 0 || *all == setTrue {
 		for name, setting := range report {
 			if *setting == unset && !experimental[name] {
 				*setting = setTrue
 			}
 		}
 	}

 	// Accept space-separated tags because that matches
 	// the go command's other subcommands.
 	// Accept commas because go tool vet traditionally has.
 	tagList = strings.Fields(strings.Replace(*tags, ",", " ", -1))

 	initPrintFlags()
 	initUnusedFlags()

 	if flag.NArg() == 0 {
 		Usage()
 	}

 	// Special case for "go vet" passing an explicit configuration:
 	// single argument ending in vet.cfg.
 	// Once we have a more general mechanism for obtaining this
 	// information from build tools like the go command,
 	// vet should be changed to use it. This vet.cfg hack is an
 	// experiment to learn about what form that information should take.
 	if flag.NArg() == 1 && strings.HasSuffix(flag.Arg(0), "vet.cfg") {
 		doPackageCfg(flag.Arg(0))
 		os.Exit(exitCode)
 	}

 	for _, name := range flag.Args() {
 		// Is it a directory?
 		fi, err := os.Stat(name)
 		if err != nil {
 			warnf("error walking tree: %s", err)
 			continue
 		}
 		if fi.IsDir() {
 			dirsRun = true
 		} else {
 			filesRun = true
 			if !strings.HasSuffix(name, "_test.go") {
 				includesNonTest = true
 			}
 		}
 	}
 	if dirsRun && filesRun {
 		Usage()
 	}
 	if dirsRun {
 		for _, name := range flag.Args() {
 			walkDir(name)
 		}
 		os.Exit(exitCode)
 	}
 	if doPackage(flag.Args(), nil) == nil {
 		warnf("no files checked")
 	}
 	os.Exit(exitCode)
 }

 // prefixDirectory places the directory name on the beginning of each name in the list.
 func prefixDirectory(directory string, names []string) {
 	if directory != "." {
 		for i, name := range names {
 			names[i] = filepath.Join(directory, name)
 		}
 	}
 }

 // vetConfig is the JSON config struct prepared by the Go command.
 type vetConfig struct {
 	Compiler    string
 	Dir         string
 	ImportPath  string
 	GoFiles     []string
 	ImportMap   map[string]string
 	PackageFile map[string]string
 	Standard    map[string]bool
 	PackageVetx map[string]string // map from import path to vetx data file
 	VetxOnly    bool              // only compute vetx output; don't run ordinary checks
 	VetxOutput  string            // file where vetx output should be written

 	SucceedOnTypecheckFailure bool

 	imp types.Importer
 }

 func (v *vetConfig) Import(path string) (*types.Package, error) {
 	if v.imp == nil {
 		v.imp = importer.For(v.Compiler, v.openPackageFile)
 	}
 	if path == "unsafe" {
 		return v.imp.Import("unsafe")
 	}
 	p := v.ImportMap[path]
 	if p == "" {
 		return nil, fmt.Errorf("unknown import path %q", path)
 	}
 	if v.PackageFile[p] == "" {
 		if v.Compiler == "gccgo" && v.Standard[path] {
 			// gccgo doesn't have sources for standard library packages,
 			// but the importer will do the right thing.
 			return v.imp.Import(path)
 		}
 		return nil, fmt.Errorf("unknown package file for import %q", path)
 	}
 	return v.imp.Import(p)
 }

 func (v *vetConfig) openPackageFile(path string) (io.ReadCloser, error) {
 	file := v.PackageFile[path]
 	if file == "" {
 		if v.Compiler == "gccgo" && v.Standard[path] {
 			// The importer knows how to handle this.
 			return nil, nil
 		}
 		// Note that path here has been translated via v.ImportMap,
 		// unlike in the error in Import above. We prefer the error in
 		// Import, but it's worth diagnosing this one too, just in case.
 		return nil, fmt.Errorf("unknown package file for %q", path)
 	}
 	f, err := os.Open(file)
 	if err != nil {
 		return nil, err
 	}
 	return f, nil
 }

 // doPackageCfg analyzes a single package described in a config file.
 func doPackageCfg(cfgFile string) {
 	js, err := ioutil.ReadFile(cfgFile)
 	if err != nil {
 		errorf("%v", err)
 	}
 	if err := json.Unmarshal(js, &vcfg); err != nil {
 		errorf("parsing vet config %s: %v", cfgFile, err)
 	}
 	stdImporter = &vcfg
 	inittypes()
 	mustTypecheck = true
 	doPackage(vcfg.GoFiles, nil)
 	if vcfg.VetxOutput != "" {
 		out := make([]vetxExport, 0, len(exporters))
 		for name, fn := range exporters {
 			out = append(out, vetxExport{
 				Name: name,
 				Data: fn(),
 			})
 		}
 		// Sort the data so that it is consistent across builds.
 		sort.Slice(out, func(i, j int) bool {
 			return out[i].Name < out[j].Name
 		})
 		var buf bytes.Buffer
 		if err := gob.NewEncoder(&buf).Encode(out); err != nil {
 			errorf("encoding vet output: %v", err)
 			return
 		}
 		if err := ioutil.WriteFile(vcfg.VetxOutput, buf.Bytes(), 0666); err != nil {
 			errorf("saving vet output: %v", err)
 			return
 		}
 	}
 }

 // doPackageDir analyzes the single package found in the directory, if there is one,
 // plus a test package, if there is one.
 func doPackageDir(directory string) {
 	context := build.Default
 	if len(context.BuildTags) != 0 {
 		warnf("build tags %s previously set", context.BuildTags)
 	}
 	context.BuildTags = append(tagList, context.BuildTags...)

 	pkg, err := context.ImportDir(directory, 0)
 	if err != nil {
 		// If it's just that there are no go source files, that's fine.
 		if _, nogo := err.(*build.NoGoError); nogo {
 			return
 		}
 		// Non-fatal: we are doing a recursive walk and there may be other directories.
 		warnf("cannot process directory %s: %s", directory, err)
 		return
 	}
 	var names []string
 	names = append(names, pkg.GoFiles...)
 	names = append(names, pkg.CgoFiles...)
 	names = append(names, pkg.TestGoFiles...) // These are also in the "foo" package.
 	names = append(names, pkg.SFiles...)
 	prefixDirectory(directory, names)
 	basePkg := doPackage(names, nil)
 	// Is there also a "foo_test" package? If so, do that one as well.
 	if len(pkg.XTestGoFiles) > 0 {
 		names = pkg.XTestGoFiles
 		prefixDirectory(directory, names)
 		doPackage(names, basePkg)
 	}
 }

 type Package struct {
 	path      string
 	defs      map[*ast.Ident]types.Object
 	uses      map[*ast.Ident]types.Object
 	selectors map[*ast.SelectorExpr]*types.Selection
 	types     map[ast.Expr]types.TypeAndValue
 	spans     map[types.Object]Span
 	files     []*File
 	typesPkg  *types.Package
 }

 // doPackage analyzes the single package constructed from the named files.
 // It returns the parsed Package or nil if none of the files have been checked.
 func doPackage(names []string, basePkg *Package) *Package {
 	var files []*File
 	var astFiles []*ast.File
 	fs := token.NewFileSet()
 	for _, name := range names {
 		data, err := ioutil.ReadFile(name)
 		if err != nil {
 			// Warn but continue to next package.
 			warnf("%s: %s", name, err)
 			return nil
 		}
 		var parsedFile *ast.File
 		if strings.HasSuffix(name, ".go") {
 			parsedFile, err = parser.ParseFile(fs, name, data, parser.ParseComments)
 			if err != nil {
 				warnf("%s: %s", name, err)
 				return nil
 			}
 			astFiles = append(astFiles, parsedFile)
 		}
 		file := &File{
 			fset:    fs,
 			content: data,
 			name:    name,
 			file:    parsedFile,
 			dead:    make(map[ast.Node]bool),
 		}
 		files = append(files, file)
 	}
 	if len(astFiles) == 0 {
 		return nil
 	}
 	pkg := new(Package)
 	pkg.path = astFiles[0].Name.Name
 	pkg.files = files
 	// Type check the package.
 	errs := pkg.check(fs, astFiles)
 	if errs != nil {
 		if vcfg.SucceedOnTypecheckFailure {
 			os.Exit(0)
 		}
 		if *verbose || mustTypecheck {
 			for _, err := range errs {
 				fmt.Fprintf(os.Stderr, "%v\n", err)
 			}
 			if mustTypecheck {
 				// This message could be silenced, and we could just exit,
 				// but it might be helpful at least at first to make clear that the
 				// above errors are coming from vet and not the compiler
 				// (they often look like compiler errors, such as "declared but not used").
 				errorf("typecheck failures")
 			}
 		}
 	}

 	// Check.
 	for _, file := range files {
 		file.pkg = pkg
 		file.basePkg = basePkg
 	}
 	for name, fn := range pkgCheckers {
 		if vet(name) {
 			fn(pkg)
 		}
 	}
 	if vcfg.VetxOnly {
 		return pkg
 	}

 	chk := make(map[ast.Node][]func(*File, ast.Node))
 	for typ, set := range checkers {
 		for name, fn := range set {
 			if vet(name) {
 				chk[typ] = append(chk[typ], fn)
 			}
 		}
 	}
 	for _, file := range files {
 		checkBuildTag(file)
 		file.checkers = chk
 		if file.file != nil {
 			file.walkFile(file.name, file.file)
 		}
 	}
 	return pkg
 }

 func visit(path string, f os.FileInfo, err error) error {
 	if err != nil {
 		warnf("walk error: %s", err)
 		return err
 	}
 	// One package per directory. Ignore the files themselves.
 	if !f.IsDir() {
 		return nil
 	}
 	doPackageDir(path)
 	return nil
 }

 func (pkg *Package) hasFileWithSuffix(suffix string) bool {
 	for _, f := range pkg.files {
 		if strings.HasSuffix(f.name, suffix) {
 			return true
 		}
 	}
 	return false
 }

 // walkDir recursively walks the tree looking for Go packages.
 func walkDir(root string) {
 	filepath.Walk(root, visit)
 }

 // errorf formats the error to standard error, adding program
 // identification and a newline, and exits.
 func errorf(format string, args ...interface{}) {
 	fmt.Fprintf(os.Stderr, "vet: "+format+"\n", args...)
 	os.Exit(2)
 }

 // warnf formats the error to standard error, adding program
 // identification and a newline, but does not exit.
 func warnf(format string, args ...interface{}) {
 	fmt.Fprintf(os.Stderr, "vet: "+format+"\n", args...)
 	setExit(1)
 }

 // Println is fmt.Println guarded by -v.
 func Println(args ...interface{}) {
 	if !*verbose {
 		return
 	}
 	fmt.Println(args...)
 }

 // Printf is fmt.Printf guarded by -v.
 func Printf(format string, args ...interface{}) {
 	if !*verbose {
 		return
 	}
 	fmt.Printf(format+"\n", args...)
 }

 // Bad reports an error and sets the exit code..
 func (f *File) Bad(pos token.Pos, args ...interface{}) {
 	f.Warn(pos, args...)
 	setExit(1)
 }

 // Badf reports a formatted error and sets the exit code.
 func (f *File) Badf(pos token.Pos, format string, args ...interface{}) {
 	f.Warnf(pos, format, args...)
 	setExit(1)
 }

 // loc returns a formatted representation of the position.
 func (f *File) loc(pos token.Pos) string {
 	if pos == token.NoPos {
 		return ""
 	}
 	// Do not print columns. Because the pos often points to the start of an
 	// expression instead of the inner part with the actual error, the
 	// precision can mislead.
 	posn := f.fset.Position(pos)
 	return fmt.Sprintf("%s:%d", posn.Filename, posn.Line)
 }

 // locPrefix returns a formatted representation of the position for use as a line prefix.
 func (f *File) locPrefix(pos token.Pos) string {
 	if pos == token.NoPos {
 		return ""
 	}
 	return fmt.Sprintf("%s: ", f.loc(pos))
 }

 // Warn reports an error but does not set the exit code.
 func (f *File) Warn(pos token.Pos, args ...interface{}) {
 	fmt.Fprintf(os.Stderr, "%s%s", f.locPrefix(pos), fmt.Sprintln(args...))
 }

 // Warnf reports a formatted error but does not set the exit code.
 func (f *File) Warnf(pos token.Pos, format string, args ...interface{}) {
 	fmt.Fprintf(os.Stderr, "%s%s\n", f.locPrefix(pos), fmt.Sprintf(format, args...))
 }

 // walkFile walks the file's tree.
 func (f *File) walkFile(name string, file *ast.File) {
 	Println("Checking file", name)
 	ast.Walk(f, file)
 }

 // Visit implements the ast.Visitor interface.
 func (f *File) Visit(node ast.Node) ast.Visitor {
 	f.updateDead(node)
 	var key ast.Node
 	switch node.(type) {
 	case *ast.AssignStmt:
 		key = assignStmt
 	case *ast.BinaryExpr:
 		key = binaryExpr
 	case *ast.CallExpr:
 		key = callExpr
 	case *ast.CompositeLit:
 		key = compositeLit
 	case *ast.ExprStmt:
 		key = exprStmt
 	case *ast.ForStmt:
 		key = forStmt
 	case *ast.FuncDecl:
 		key = funcDecl
 	case *ast.FuncLit:
 		key = funcLit
 	case *ast.GenDecl:
 		key = genDecl
 	case *ast.InterfaceType:
 		key = interfaceType
 	case *ast.RangeStmt:
 		key = rangeStmt
 	case *ast.ReturnStmt:
 		key = returnStmt
 	case *ast.StructType:
 		key = structType
 	}
 	for _, fn := range f.checkers[key] {
 		fn(f, node)
 	}
 	return f
 }

 // gofmt returns a string representation of the expression.
 func (f *File) gofmt(x ast.Expr) string {
 	f.b.Reset()
 	printer.Fprint(&f.b, f.fset, x)
 	return f.b.String()
 }

 // imported[path][key] is previously written export data.
 var imported = make(map[string]map[string]interface{})

 // readVetx reads export data written by a previous
 // invocation of vet on an imported package (path).
 // The key is the name passed to registerExport
 // when the data was originally generated.
 // readVetx returns nil if the data is unavailable.
 func readVetx(path, key string) interface{} {
 	if path == "unsafe" || vcfg.ImportPath == "" {
 		return nil
 	}
 	m := imported[path]
 	if m == nil {
 		file := vcfg.PackageVetx[path]
 		if file == "" {
 			return nil
 		}
 		data, err := ioutil.ReadFile(file)
 		if err != nil {
 			return nil
 		}
 		var out []vetxExport
 		err = gob.NewDecoder(bytes.NewReader(data)).Decode(&out)
 		if err != nil {
 			return nil
 		}
 		m = make(map[string]interface{})
 		for _, x := range out {
 			m[x.Name] = x.Data
 		}
 		imported[path] = m
 	}
 	return m[key]
 }
	// Copyright 2010 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.

	// Vet is a simple checker for static errors in Go source code.
	// See doc.go for more information.

	package main

	import (
	"bytes"
	"encoding/gob"
	"encoding/json"
	"flag"
	"fmt"
	"go/ast"
	"go/build"
	"go/importer"
	"go/parser"
	"go/printer"
	"go/token"
	"go/types"
	"io"
	"io/ioutil"
	"os"
	"path/filepath"
	"sort"
	"strconv"
	"strings"

	"cmd/internal/objabi"
	)

	// Important! If you add flags here, make sure to update cmd/go/internal/vet/vetflag.go.

	var (
	verbose = flag.Bool("v", false, "verbose")
	source = flag.Bool("source", false, "import from source instead of compiled object files")
	tags = flag.String("tags", "", "space-separated list of build tags to apply when parsing")
	tagList = []string{} // exploded version of tags flag; set in main

	vcfg vetConfig
	mustTypecheck bool
	)

	var exitCode = 0

	// "-all" flag enables all non-experimental checks
	var all = triStateFlag("all", unset, "enable all non-experimental checks")

	// Flags to control which individual checks to perform.
	var report = map[string]*triState{
	// Only unusual checks are written here.
	// Most checks that operate during the AST walk are added by register.
	"asmdecl": triStateFlag("asmdecl", unset, "check assembly against Go declarations"),
	"buildtags": triStateFlag("buildtags", unset, "check that +build tags are valid"),
	}

	// experimental records the flags enabling experimental features. These must be
	// requested explicitly; they are not enabled by -all.
	var experimental = map[string]bool{}

	// setTrueCount record how many flags are explicitly set to true.
	var setTrueCount int

	// dirsRun and filesRun indicate whether the vet is applied to directory or
	// file targets. The distinction affects which checks are run.
	var dirsRun, filesRun bool

	// includesNonTest indicates whether the vet is applied to non-test targets.
	// Certain checks are relevant only if they touch both test and non-test files.
	var includesNonTest bool

	// A triState is a boolean that knows whether it has been set to either true or false.
	// It is used to identify if a flag appears; the standard boolean flag cannot
	// distinguish missing from unset. It also satisfies flag.Value.
	type triState int

	const (
	unset triState = iota
	setTrue
	setFalse
	)

	func triStateFlag(name string, value triState, usage string) *triState {
	flag.Var(&value, name, usage)
	return &value
	}

	// triState implements flag.Value, flag.Getter, and flag.boolFlag.
	// They work like boolean flags: we can say vet -printf as well as vet -printf=true
	func (ts *triState) Get() interface{} {
	return *ts == setTrue
	}

	func (ts triState) isTrue() bool {
	return ts == setTrue
	}

	func (ts *triState) Set(value string) error {
	b, err := strconv.ParseBool(value)
	if err != nil {
	return err
	}
	if b {
	*ts = setTrue
	setTrueCount++
	} else {
	*ts = setFalse
	}
	return nil
	}

	func (ts *triState) String() string {
	switch *ts {
	case unset:
	return "true" // An unset flag will be set by -all, so defaults to true.
	case setTrue:
	return "true"
	case setFalse:
	return "false"
	}
	panic("not reached")
	}

	func (ts triState) IsBoolFlag() bool {
	return true
	}

	// vet tells whether to report errors for the named check, a flag name.
	func vet(name string) bool {
	return report[name].isTrue()
	}

	// setExit sets the value for os.Exit when it is called, later. It
	// remembers the highest value.
	func setExit(err int) {
	if err > exitCode {
	exitCode = err
	}
	}

	var (
	// Each of these vars has a corresponding case in (*File).Visit.
	assignStmt *ast.AssignStmt
	binaryExpr *ast.BinaryExpr
	callExpr *ast.CallExpr
	compositeLit *ast.CompositeLit
	exprStmt *ast.ExprStmt
	forStmt *ast.ForStmt
	funcDecl *ast.FuncDecl
	funcLit *ast.FuncLit
	genDecl *ast.GenDecl
	interfaceType *ast.InterfaceType
	rangeStmt *ast.RangeStmt
	returnStmt *ast.ReturnStmt
	structType *ast.StructType

	// checkers is a two-level map.
	// The outer level is keyed by a nil pointer, one of the AST vars above.
	// The inner level is keyed by checker name.
	checkers = make(map[ast.Node]map[string]func(*File, ast.Node))
	pkgCheckers = make(map[string]func(*Package))
	exporters = make(map[string]func() interface{})
	)

	// The exporters data as written to the vetx output file.
	type vetxExport struct {
	Name string
	Data interface{}
	}

	// Vet can provide its own "export information"
	// about package A to future invocations of vet
	// on packages importing A. If B imports A,
	// then running "go vet B" actually invokes vet twice:
	// first, it runs vet on A, in "vetx-only" mode, which
	// skips most checks and only computes export data
	// describing A. Then it runs vet on B, making A's vetx
	// data available for consultation. The vet of B
	// computes vetx data for B in addition to its
	// usual vet checks.

	// register registers the named check function,
	// to be called with AST nodes of the given types.
	// The registered functions are not called in vetx-only mode.
	func register(name, usage string, fn func(*File, ast.Node), types ...ast.Node) {
	report[name] = triStateFlag(name, unset, usage)
	for _, typ := range types {
	m := checkers[typ]
	if m == nil {
	m = make(map[string]func(*File, ast.Node))
	checkers[typ] = m
	}
	m[name] = fn
	}
	}

	// registerPkgCheck registers a package-level checking function,
	// to be invoked with the whole package being vetted
	// before any of the per-node handlers.
	// The registered function fn is called even in vetx-only mode
	// (see comment above), so fn must take care not to report
	// errors when vcfg.VetxOnly is true.
	func registerPkgCheck(name string, fn func(*Package)) {
	pkgCheckers[name] = fn
	}

	// registerExport registers a function to return vetx export data
	// that should be saved and provided to future invocations of vet
	// when checking packages importing this one.
	// The value returned by fn should be nil or else valid to encode using gob.
	// Typically a registerExport call is paired with a call to gob.Register.
	func registerExport(name string, fn func() interface{}) {
	exporters[name] = fn
	}

	// Usage is a replacement usage function for the flags package.
	func Usage() {
	fmt.Fprintf(os.Stderr, "Usage of vet:\n")
	fmt.Fprintf(os.Stderr, "\tvet [flags] directory...\n")
	fmt.Fprintf(os.Stderr, "\tvet [flags] files... # Must be a single package\n")
	fmt.Fprintf(os.Stderr, "By default, -all is set and all non-experimental checks are run.\n")
	fmt.Fprintf(os.Stderr, "For more information run\n")
	fmt.Fprintf(os.Stderr, "\tgo doc cmd/vet\n\n")
	fmt.Fprintf(os.Stderr, "Flags:\n")
	flag.PrintDefaults()
	os.Exit(2)
	}

	// File is a wrapper for the state of a file used in the parser.
	// The parse tree walkers are all methods of this type.
	type File struct {
	pkg *Package
	fset *token.FileSet
	name string
	content []byte
	file *ast.File
	b bytes.Buffer // for use by methods

	// Parsed package "foo" when checking package "foo_test"
	basePkg *Package

	// The keys are the objects that are receivers of a "String()
	// string" method. The value reports whether the method has a
	// pointer receiver.
	// This is used by the recursiveStringer method in print.go.
	stringerPtrs map[*ast.Object]bool

	// Registered checkers to run.
	checkers map[ast.Node][]func(*File, ast.Node)

	// Unreachable nodes; can be ignored in shift check.
	dead map[ast.Node]bool
	}

	func main() {
	objabi.AddVersionFlag()
	flag.Usage = Usage
	flag.Parse()

	// If any flag is set, we run only those checks requested.
	// If all flag is set true or if no flags are set true, set all the non-experimental ones
	// not explicitly set (in effect, set the "-all" flag).
	if setTrueCount == 0 \|\| *all == setTrue {
	for name, setting := range report {
	if *setting == unset && !experimental[name] {
	*setting = setTrue
	}
	}
	}

	// Accept space-separated tags because that matches
	// the go command's other subcommands.
	// Accept commas because go tool vet traditionally has.
	tagList = strings.Fields(strings.Replace(*tags, ",", " ", -1))

	initPrintFlags()
	initUnusedFlags()

	if flag.NArg() == 0 {
	Usage()
	}

	// Special case for "go vet" passing an explicit configuration:
	// single argument ending in vet.cfg.
	// Once we have a more general mechanism for obtaining this
	// information from build tools like the go command,
	// vet should be changed to use it. This vet.cfg hack is an
	// experiment to learn about what form that information should take.
	if flag.NArg() == 1 && strings.HasSuffix(flag.Arg(0), "vet.cfg") {
	doPackageCfg(flag.Arg(0))
	os.Exit(exitCode)
	}

	for _, name := range flag.Args() {
	// Is it a directory?
	fi, err := os.Stat(name)
	if err != nil {
	warnf("error walking tree: %s", err)
	continue
	}
	if fi.IsDir() {
	dirsRun = true
	} else {
	filesRun = true
	if !strings.HasSuffix(name, "_test.go") {
	includesNonTest = true
	}
	}
	}
	if dirsRun && filesRun {
	Usage()
	}
	if dirsRun {
	for _, name := range flag.Args() {
	walkDir(name)
	}
	os.Exit(exitCode)
	}
	if doPackage(flag.Args(), nil) == nil {
	warnf("no files checked")
	}
	os.Exit(exitCode)
	}

	// prefixDirectory places the directory name on the beginning of each name in the list.
	func prefixDirectory(directory string, names []string) {
	if directory != "." {
	for i, name := range names {
	names[i] = filepath.Join(directory, name)
	}
	}
	}

	// vetConfig is the JSON config struct prepared by the Go command.
	type vetConfig struct {
	Compiler string
	Dir string
	ImportPath string
	GoFiles []string
	ImportMap map[string]string
	PackageFile map[string]string
	Standard map[string]bool
	PackageVetx map[string]string // map from import path to vetx data file
	VetxOnly bool // only compute vetx output; don't run ordinary checks
	VetxOutput string // file where vetx output should be written

	SucceedOnTypecheckFailure bool

	imp types.Importer
	}

	func (v vetConfig) Import(path string) (types.Package, error) {
	if v.imp == nil {
	v.imp = importer.For(v.Compiler, v.openPackageFile)
	}
	if path == "unsafe" {
	return v.imp.Import("unsafe")
	}
	p := v.ImportMap[path]
	if p == "" {
	return nil, fmt.Errorf("unknown import path %q", path)
	}
	if v.PackageFile[p] == "" {
	if v.Compiler == "gccgo" && v.Standard[path] {
	// gccgo doesn't have sources for standard library packages,
	// but the importer will do the right thing.
	return v.imp.Import(path)
	}
	return nil, fmt.Errorf("unknown package file for import %q", path)
	}
	return v.imp.Import(p)
	}

	func (v *vetConfig) openPackageFile(path string) (io.ReadCloser, error) {
	file := v.PackageFile[path]
	if file == "" {
	if v.Compiler == "gccgo" && v.Standard[path] {
	// The importer knows how to handle this.
	return nil, nil
	}
	// Note that path here has been translated via v.ImportMap,
	// unlike in the error in Import above. We prefer the error in
	// Import, but it's worth diagnosing this one too, just in case.
	return nil, fmt.Errorf("unknown package file for %q", path)
	}
	f, err := os.Open(file)
	if err != nil {
	return nil, err
	}
	return f, nil
	}

	// doPackageCfg analyzes a single package described in a config file.
	func doPackageCfg(cfgFile string) {
	js, err := ioutil.ReadFile(cfgFile)
	if err != nil {
	errorf("%v", err)
	}
	if err := json.Unmarshal(js, &vcfg); err != nil {
	errorf("parsing vet config %s: %v", cfgFile, err)
	}
	stdImporter = &vcfg
	inittypes()
	mustTypecheck = true
	doPackage(vcfg.GoFiles, nil)
	if vcfg.VetxOutput != "" {
	out := make([]vetxExport, 0, len(exporters))
	for name, fn := range exporters {
	out = append(out, vetxExport{
	Name: name,
	Data: fn(),
	})
	}
	// Sort the data so that it is consistent across builds.
	sort.Slice(out, func(i, j int) bool {
	return out[i].Name < out[j].Name
	})
	var buf bytes.Buffer
	if err := gob.NewEncoder(&buf).Encode(out); err != nil {
	errorf("encoding vet output: %v", err)
	return
	}
	if err := ioutil.WriteFile(vcfg.VetxOutput, buf.Bytes(), 0666); err != nil {
	errorf("saving vet output: %v", err)
	return
	}
	}
	}

	// doPackageDir analyzes the single package found in the directory, if there is one,
	// plus a test package, if there is one.
	func doPackageDir(directory string) {
	context := build.Default
	if len(context.BuildTags) != 0 {
	warnf("build tags %s previously set", context.BuildTags)
	}
	context.BuildTags = append(tagList, context.BuildTags...)

	pkg, err := context.ImportDir(directory, 0)
	if err != nil {
	// If it's just that there are no go source files, that's fine.
	if _, nogo := err.(*build.NoGoError); nogo {
	return
	}
	// Non-fatal: we are doing a recursive walk and there may be other directories.
	warnf("cannot process directory %s: %s", directory, err)
	return
	}
	var names []string
	names = append(names, pkg.GoFiles...)
	names = append(names, pkg.CgoFiles...)
	names = append(names, pkg.TestGoFiles...) // These are also in the "foo" package.
	names = append(names, pkg.SFiles...)
	prefixDirectory(directory, names)
	basePkg := doPackage(names, nil)
	// Is there also a "foo_test" package? If so, do that one as well.
	if len(pkg.XTestGoFiles) > 0 {
	names = pkg.XTestGoFiles
	prefixDirectory(directory, names)
	doPackage(names, basePkg)
	}
	}

	type Package struct {
	path string
	defs map[*ast.Ident]types.Object
	uses map[*ast.Ident]types.Object
	selectors map[ast.SelectorExpr]types.Selection
	types map[ast.Expr]types.TypeAndValue
	spans map[types.Object]Span
	files []*File
	typesPkg *types.Package
	}

	// doPackage analyzes the single package constructed from the named files.
	// It returns the parsed Package or nil if none of the files have been checked.
	func doPackage(names []string, basePkg Package) Package {
	var files []*File
	var astFiles []*ast.File
	fs := token.NewFileSet()
	for _, name := range names {
	data, err := ioutil.ReadFile(name)
	if err != nil {
	// Warn but continue to next package.
	warnf("%s: %s", name, err)
	return nil
	}
	var parsedFile *ast.File
	if strings.HasSuffix(name, ".go") {
	parsedFile, err = parser.ParseFile(fs, name, data, parser.ParseComments)
	if err != nil {
	warnf("%s: %s", name, err)
	return nil
	}
	astFiles = append(astFiles, parsedFile)
	}
	file := &File{
	fset: fs,
	content: data,
	name: name,
	file: parsedFile,
	dead: make(map[ast.Node]bool),
	}
	files = append(files, file)
	}
	if len(astFiles) == 0 {
	return nil
	}
	pkg := new(Package)
	pkg.path = astFiles[0].Name.Name
	pkg.files = files
	// Type check the package.
	errs := pkg.check(fs, astFiles)
	if errs != nil {
	if vcfg.SucceedOnTypecheckFailure {
	os.Exit(0)
	}
	if *verbose \|\| mustTypecheck {
	for _, err := range errs {
	fmt.Fprintf(os.Stderr, "%v\n", err)
	}
	if mustTypecheck {
	// This message could be silenced, and we could just exit,
	// but it might be helpful at least at first to make clear that the
	// above errors are coming from vet and not the compiler
	// (they often look like compiler errors, such as "declared but not used").
	errorf("typecheck failures")
	}
	}
	}

	// Check.
	for _, file := range files {
	file.pkg = pkg
	file.basePkg = basePkg
	}
	for name, fn := range pkgCheckers {
	if vet(name) {
	fn(pkg)
	}
	}
	if vcfg.VetxOnly {
	return pkg
	}

	chk := make(map[ast.Node][]func(*File, ast.Node))
	for typ, set := range checkers {
	for name, fn := range set {
	if vet(name) {
	chk[typ] = append(chk[typ], fn)
	}
	}
	}
	for _, file := range files {
	checkBuildTag(file)
	file.checkers = chk
	if file.file != nil {
	file.walkFile(file.name, file.file)
	}
	}
	return pkg
	}

	func visit(path string, f os.FileInfo, err error) error {
	if err != nil {
	warnf("walk error: %s", err)
	return err
	}
	// One package per directory. Ignore the files themselves.
	if !f.IsDir() {
	return nil
	}
	doPackageDir(path)
	return nil
	}

	func (pkg *Package) hasFileWithSuffix(suffix string) bool {
	for _, f := range pkg.files {
	if strings.HasSuffix(f.name, suffix) {
	return true
	}
	}
	return false
	}

	// walkDir recursively walks the tree looking for Go packages.
	func walkDir(root string) {
	filepath.Walk(root, visit)
	}

	// errorf formats the error to standard error, adding program
	// identification and a newline, and exits.
	func errorf(format string, args ...interface{}) {
	fmt.Fprintf(os.Stderr, "vet: "+format+"\n", args...)
	os.Exit(2)
	}

	// warnf formats the error to standard error, adding program
	// identification and a newline, but does not exit.
	func warnf(format string, args ...interface{}) {
	fmt.Fprintf(os.Stderr, "vet: "+format+"\n", args...)
	setExit(1)
	}

	// Println is fmt.Println guarded by -v.
	func Println(args ...interface{}) {
	if !*verbose {
	return
	}
	fmt.Println(args...)
	}

	// Printf is fmt.Printf guarded by -v.
	func Printf(format string, args ...interface{}) {
	if !*verbose {
	return
	}
	fmt.Printf(format+"\n", args...)
	}

	// Bad reports an error and sets the exit code..
	func (f *File) Bad(pos token.Pos, args ...interface{}) {
	f.Warn(pos, args...)
	setExit(1)
	}

	// Badf reports a formatted error and sets the exit code.
	func (f *File) Badf(pos token.Pos, format string, args ...interface{}) {
	f.Warnf(pos, format, args...)
	setExit(1)
	}

	// loc returns a formatted representation of the position.
	func (f *File) loc(pos token.Pos) string {
	if pos == token.NoPos {
	return ""
	}
	// Do not print columns. Because the pos often points to the start of an
	// expression instead of the inner part with the actual error, the
	// precision can mislead.
	posn := f.fset.Position(pos)
	return fmt.Sprintf("%s:%d", posn.Filename, posn.Line)
	}

	// locPrefix returns a formatted representation of the position for use as a line prefix.
	func (f *File) locPrefix(pos token.Pos) string {
	if pos == token.NoPos {
	return ""
	}
	return fmt.Sprintf("%s: ", f.loc(pos))
	}

	// Warn reports an error but does not set the exit code.
	func (f *File) Warn(pos token.Pos, args ...interface{}) {
	fmt.Fprintf(os.Stderr, "%s%s", f.locPrefix(pos), fmt.Sprintln(args...))
	}

	// Warnf reports a formatted error but does not set the exit code.
	func (f *File) Warnf(pos token.Pos, format string, args ...interface{}) {
	fmt.Fprintf(os.Stderr, "%s%s\n", f.locPrefix(pos), fmt.Sprintf(format, args...))
	}

	// walkFile walks the file's tree.
	func (f File) walkFile(name string, file ast.File) {
	Println("Checking file", name)
	ast.Walk(f, file)
	}

	// Visit implements the ast.Visitor interface.
	func (f *File) Visit(node ast.Node) ast.Visitor {
	f.updateDead(node)
	var key ast.Node
	switch node.(type) {
	case *ast.AssignStmt:
	key = assignStmt
	case *ast.BinaryExpr:
	key = binaryExpr
	case *ast.CallExpr:
	key = callExpr
	case *ast.CompositeLit:
	key = compositeLit
	case *ast.ExprStmt:
	key = exprStmt
	case *ast.ForStmt:
	key = forStmt
	case *ast.FuncDecl:
	key = funcDecl
	case *ast.FuncLit:
	key = funcLit
	case *ast.GenDecl:
	key = genDecl
	case *ast.InterfaceType:
	key = interfaceType
	case *ast.RangeStmt:
	key = rangeStmt
	case *ast.ReturnStmt:
	key = returnStmt
	case *ast.StructType:
	key = structType
	}
	for _, fn := range f.checkers[key] {
	fn(f, node)
	}
	return f
	}

	// gofmt returns a string representation of the expression.
	func (f *File) gofmt(x ast.Expr) string {
	f.b.Reset()
	printer.Fprint(&f.b, f.fset, x)
	return f.b.String()
	}

	// imported[path][key] is previously written export data.
	var imported = make(map[string]map[string]interface{})

	// readVetx reads export data written by a previous
	// invocation of vet on an imported package (path).
	// The key is the name passed to registerExport
	// when the data was originally generated.
	// readVetx returns nil if the data is unavailable.
	func readVetx(path, key string) interface{} {
	if path == "unsafe" \|\| vcfg.ImportPath == "" {
	return nil
	}
	m := imported[path]
	if m == nil {
	file := vcfg.PackageVetx[path]
	if file == "" {
	return nil
	}
	data, err := ioutil.ReadFile(file)
	if err != nil {
	return nil
	}
	var out []vetxExport
	err = gob.NewDecoder(bytes.NewReader(data)).Decode(&out)
	if err != nil {
	return nil
	}
	m = make(map[string]interface{})
	for _, x := range out {
	m[x.Name] = x.Data
	}
	imported[path] = m
	}
	return m[key]
	}