go/analysis/passes/stdmethods/stdmethods.go - tools - 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.

 // Package stdmethods defines an Analyzer that checks for misspellings
 // in the signatures of methods similar to well-known interfaces.
 package stdmethods

 import (
 	"bytes"
 	"fmt"
 	"go/ast"
 	"go/printer"
 	"go/token"
 	"go/types"
 	"strings"

 	"golang.org/x/tools/go/analysis"
 	"golang.org/x/tools/go/analysis/passes/inspect"
 	"golang.org/x/tools/go/ast/inspector"
 )

 const Doc = `check signature of methods of well-known interfaces

 Sometimes a type may be intended to satisfy an interface but may fail to
 do so because of a mistake in its method signature.
 For example, the result of this WriteTo method should be (int64, error),
 not error, to satisfy io.WriterTo:

 	type myWriterTo struct{...}
         func (myWriterTo) WriteTo(w io.Writer) error { ... }

 This check ensures that each method whose name matches one of several
 well-known interface methods from the standard library has the correct
 signature for that interface.

 Checked method names include:
 	Format GobEncode GobDecode MarshalJSON MarshalXML
 	Peek ReadByte ReadFrom ReadRune Scan Seek
 	UnmarshalJSON UnreadByte UnreadRune WriteByte
 	WriteTo
 `

 var Analyzer = &analysis.Analyzer{
 	Name:     "stdmethods",
 	Doc:      Doc,
 	Requires: []*analysis.Analyzer{inspect.Analyzer},
 	Run:      run,
 }

 // canonicalMethods lists the input and output types for Go methods
 // that are checked using dynamic interface checks. Because the
 // checks are dynamic, such methods would not cause a compile error
 // if they have the wrong signature: instead the dynamic check would
 // fail, sometimes mysteriously. If a method is found with a name listed
 // here but not the input/output types listed here, vet complains.
 //
 // A few of the canonical methods have very common names.
 // For example, a type might implement a Scan method that
 // has nothing to do with fmt.Scanner, but we still want to check
 // the methods that are intended to implement fmt.Scanner.
 // To do that, the arguments that have a = prefix are treated as
 // signals that the canonical meaning is intended: if a Scan
 // method doesn't have a fmt.ScanState as its first argument,
 // we let it go. But if it does have a fmt.ScanState, then the
 // rest has to match.
 var canonicalMethods = map[string]struct{ args, results []string }{
 	// "Flush": {{}, {"error"}}, // http.Flusher and jpeg.writer conflict
 	"Format":        {[]string{"=fmt.State", "rune"}, []string{}},                      // fmt.Formatter
 	"GobDecode":     {[]string{"[]byte"}, []string{"error"}},                           // gob.GobDecoder
 	"GobEncode":     {[]string{}, []string{"[]byte", "error"}},                         // gob.GobEncoder
 	"MarshalJSON":   {[]string{}, []string{"[]byte", "error"}},                         // json.Marshaler
 	"MarshalXML":    {[]string{"*xml.Encoder", "xml.StartElement"}, []string{"error"}}, // xml.Marshaler
 	"ReadByte":      {[]string{}, []string{"byte", "error"}},                           // io.ByteReader
 	"ReadFrom":      {[]string{"=io.Reader"}, []string{"int64", "error"}},              // io.ReaderFrom
 	"ReadRune":      {[]string{}, []string{"rune", "int", "error"}},                    // io.RuneReader
 	"Scan":          {[]string{"=fmt.ScanState", "rune"}, []string{"error"}},           // fmt.Scanner
 	"Seek":          {[]string{"=int64", "int"}, []string{"int64", "error"}},           // io.Seeker
 	"UnmarshalJSON": {[]string{"[]byte"}, []string{"error"}},                           // json.Unmarshaler
 	"UnmarshalXML":  {[]string{"*xml.Decoder", "xml.StartElement"}, []string{"error"}}, // xml.Unmarshaler
 	"UnreadByte":    {[]string{}, []string{"error"}},
 	"UnreadRune":    {[]string{}, []string{"error"}},
 	"WriteByte":     {[]string{"byte"}, []string{"error"}},                // jpeg.writer (matching bufio.Writer)
 	"WriteTo":       {[]string{"=io.Writer"}, []string{"int64", "error"}}, // io.WriterTo
 }

 func run(pass *analysis.Pass) (interface{}, error) {
 	inspect := pass.ResultOf[inspect.Analyzer].(*inspector.Inspector)

 	nodeFilter := []ast.Node{
 		(*ast.FuncDecl)(nil),
 		(*ast.InterfaceType)(nil),
 	}
 	inspect.Preorder(nodeFilter, func(n ast.Node) {
 		switch n := n.(type) {
 		case *ast.FuncDecl:
 			if n.Recv != nil {
 				canonicalMethod(pass, n.Name, n.Type)
 			}
 		case *ast.InterfaceType:
 			for _, field := range n.Methods.List {
 				for _, id := range field.Names {
 					canonicalMethod(pass, id, field.Type.(*ast.FuncType))
 				}
 			}
 		}
 	})
 	return nil, nil
 }

 func canonicalMethod(pass *analysis.Pass, id *ast.Ident, t *ast.FuncType) {
 	// Expected input/output.
 	expect, ok := canonicalMethods[id.Name]
 	if !ok {
 		return
 	}

 	// Actual input/output
 	args := typeFlatten(t.Params.List)
 	var results []ast.Expr
 	if t.Results != nil {
 		results = typeFlatten(t.Results.List)
 	}

 	// Do the =s (if any) all match?
 	if !matchParams(pass, expect.args, args, "=") || !matchParams(pass, expect.results, results, "=") {
 		return
 	}

 	// Everything must match.
 	if !matchParams(pass, expect.args, args, "") || !matchParams(pass, expect.results, results, "") {
 		expectFmt := id.Name + "(" + argjoin(expect.args) + ")"
 		if len(expect.results) == 1 {
 			expectFmt += " " + argjoin(expect.results)
 		} else if len(expect.results) > 1 {
 			expectFmt += " (" + argjoin(expect.results) + ")"
 		}

 		var buf bytes.Buffer
 		if err := printer.Fprint(&buf, pass.Fset, t); err != nil {
 			fmt.Fprintf(&buf, "<%s>", err)
 		}
 		actual := buf.String()
 		actual = strings.TrimPrefix(actual, "func")
 		actual = id.Name + actual

 		pass.Reportf(id.Pos(), "method %s should have signature %s", actual, expectFmt)
 	}
 }

 func argjoin(x []string) string {
 	y := make([]string, len(x))
 	for i, s := range x {
 		if s[0] == '=' {
 			s = s[1:]
 		}
 		y[i] = s
 	}
 	return strings.Join(y, ", ")
 }

 // Turn parameter list into slice of types
 // (in the ast, types are Exprs).
 // Have to handle f(int, bool) and f(x, y, z int)
 // so not a simple 1-to-1 conversion.
 func typeFlatten(l []*ast.Field) []ast.Expr {
 	var t []ast.Expr
 	for _, f := range l {
 		if len(f.Names) == 0 {
 			t = append(t, f.Type)
 			continue
 		}
 		for range f.Names {
 			t = append(t, f.Type)
 		}
 	}
 	return t
 }

 // Does each type in expect with the given prefix match the corresponding type in actual?
 func matchParams(pass *analysis.Pass, expect []string, actual []ast.Expr, prefix string) bool {
 	for i, x := range expect {
 		if !strings.HasPrefix(x, prefix) {
 			continue
 		}
 		if i >= len(actual) {
 			return false
 		}
 		if !matchParamType(pass.Fset, pass.Pkg, x, actual[i]) {
 			return false
 		}
 	}
 	if prefix == "" && len(actual) > len(expect) {
 		return false
 	}
 	return true
 }

 // Does this one type match?
 func matchParamType(fset *token.FileSet, pkg *types.Package, expect string, actual ast.Expr) bool {
 	expect = strings.TrimPrefix(expect, "=")
 	// Strip package name if we're in that package.
 	if n := len(pkg.Name()); len(expect) > n && expect[:n] == pkg.Name() && expect[n] == '.' {
 		expect = expect[n+1:]
 	}

 	// Overkill but easy.
 	var buf bytes.Buffer
 	printer.Fprint(&buf, fset, actual)
 	return buf.String() == expect
 }
	// 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.

	// Package stdmethods defines an Analyzer that checks for misspellings
	// in the signatures of methods similar to well-known interfaces.
	package stdmethods

	import (
	"bytes"
	"fmt"
	"go/ast"
	"go/printer"
	"go/token"
	"go/types"
	"strings"

	"golang.org/x/tools/go/analysis"
	"golang.org/x/tools/go/analysis/passes/inspect"
	"golang.org/x/tools/go/ast/inspector"
	)

	const Doc = `check signature of methods of well-known interfaces

	Sometimes a type may be intended to satisfy an interface but may fail to
	do so because of a mistake in its method signature.
	For example, the result of this WriteTo method should be (int64, error),
	not error, to satisfy io.WriterTo:

	type myWriterTo struct{...}
	func (myWriterTo) WriteTo(w io.Writer) error { ... }

	This check ensures that each method whose name matches one of several
	well-known interface methods from the standard library has the correct
	signature for that interface.

	Checked method names include:
	Format GobEncode GobDecode MarshalJSON MarshalXML
	Peek ReadByte ReadFrom ReadRune Scan Seek
	UnmarshalJSON UnreadByte UnreadRune WriteByte
	WriteTo
	`

	var Analyzer = &analysis.Analyzer{
	Name: "stdmethods",
	Doc: Doc,
	Requires: []*analysis.Analyzer{inspect.Analyzer},
	Run: run,
	}

	// canonicalMethods lists the input and output types for Go methods
	// that are checked using dynamic interface checks. Because the
	// checks are dynamic, such methods would not cause a compile error
	// if they have the wrong signature: instead the dynamic check would
	// fail, sometimes mysteriously. If a method is found with a name listed
	// here but not the input/output types listed here, vet complains.
	//
	// A few of the canonical methods have very common names.
	// For example, a type might implement a Scan method that
	// has nothing to do with fmt.Scanner, but we still want to check
	// the methods that are intended to implement fmt.Scanner.
	// To do that, the arguments that have a = prefix are treated as
	// signals that the canonical meaning is intended: if a Scan
	// method doesn't have a fmt.ScanState as its first argument,
	// we let it go. But if it does have a fmt.ScanState, then the
	// rest has to match.
	var canonicalMethods = map[string]struct{ args, results []string }{
	// "Flush": {{}, {"error"}}, // http.Flusher and jpeg.writer conflict
	"Format": {[]string{"=fmt.State", "rune"}, []string{}}, // fmt.Formatter
	"GobDecode": {[]string{"[]byte"}, []string{"error"}}, // gob.GobDecoder
	"GobEncode": {[]string{}, []string{"[]byte", "error"}}, // gob.GobEncoder
	"MarshalJSON": {[]string{}, []string{"[]byte", "error"}}, // json.Marshaler
	"MarshalXML": {[]string{"*xml.Encoder", "xml.StartElement"}, []string{"error"}}, // xml.Marshaler
	"ReadByte": {[]string{}, []string{"byte", "error"}}, // io.ByteReader
	"ReadFrom": {[]string{"=io.Reader"}, []string{"int64", "error"}}, // io.ReaderFrom
	"ReadRune": {[]string{}, []string{"rune", "int", "error"}}, // io.RuneReader
	"Scan": {[]string{"=fmt.ScanState", "rune"}, []string{"error"}}, // fmt.Scanner
	"Seek": {[]string{"=int64", "int"}, []string{"int64", "error"}}, // io.Seeker
	"UnmarshalJSON": {[]string{"[]byte"}, []string{"error"}}, // json.Unmarshaler
	"UnmarshalXML": {[]string{"*xml.Decoder", "xml.StartElement"}, []string{"error"}}, // xml.Unmarshaler
	"UnreadByte": {[]string{}, []string{"error"}},
	"UnreadRune": {[]string{}, []string{"error"}},
	"WriteByte": {[]string{"byte"}, []string{"error"}}, // jpeg.writer (matching bufio.Writer)
	"WriteTo": {[]string{"=io.Writer"}, []string{"int64", "error"}}, // io.WriterTo
	}

	func run(pass *analysis.Pass) (interface{}, error) {
	inspect := pass.ResultOf[inspect.Analyzer].(*inspector.Inspector)

	nodeFilter := []ast.Node{
	(*ast.FuncDecl)(nil),
	(*ast.InterfaceType)(nil),
	}
	inspect.Preorder(nodeFilter, func(n ast.Node) {
	switch n := n.(type) {
	case *ast.FuncDecl:
	if n.Recv != nil {
	canonicalMethod(pass, n.Name, n.Type)
	}
	case *ast.InterfaceType:
	for _, field := range n.Methods.List {
	for _, id := range field.Names {
	canonicalMethod(pass, id, field.Type.(*ast.FuncType))
	}
	}
	}
	})
	return nil, nil
	}

	func canonicalMethod(pass analysis.Pass, id ast.Ident, t *ast.FuncType) {
	// Expected input/output.
	expect, ok := canonicalMethods[id.Name]
	if !ok {
	return
	}

	// Actual input/output
	args := typeFlatten(t.Params.List)
	var results []ast.Expr
	if t.Results != nil {
	results = typeFlatten(t.Results.List)
	}

	// Do the =s (if any) all match?
	if !matchParams(pass, expect.args, args, "=") \|\| !matchParams(pass, expect.results, results, "=") {
	return
	}

	// Everything must match.
	if !matchParams(pass, expect.args, args, "") \|\| !matchParams(pass, expect.results, results, "") {
	expectFmt := id.Name + "(" + argjoin(expect.args) + ")"
	if len(expect.results) == 1 {
	expectFmt += " " + argjoin(expect.results)
	} else if len(expect.results) > 1 {
	expectFmt += " (" + argjoin(expect.results) + ")"
	}

	var buf bytes.Buffer
	if err := printer.Fprint(&buf, pass.Fset, t); err != nil {
	fmt.Fprintf(&buf, "<%s>", err)
	}
	actual := buf.String()
	actual = strings.TrimPrefix(actual, "func")
	actual = id.Name + actual

	pass.Reportf(id.Pos(), "method %s should have signature %s", actual, expectFmt)
	}
	}

	func argjoin(x []string) string {
	y := make([]string, len(x))
	for i, s := range x {
	if s[0] == '=' {
	s = s[1:]
	}
	y[i] = s
	}
	return strings.Join(y, ", ")
	}

	// Turn parameter list into slice of types
	// (in the ast, types are Exprs).
	// Have to handle f(int, bool) and f(x, y, z int)
	// so not a simple 1-to-1 conversion.
	func typeFlatten(l []*ast.Field) []ast.Expr {
	var t []ast.Expr
	for _, f := range l {
	if len(f.Names) == 0 {
	t = append(t, f.Type)
	continue
	}
	for range f.Names {
	t = append(t, f.Type)
	}
	}
	return t
	}

	// Does each type in expect with the given prefix match the corresponding type in actual?
	func matchParams(pass *analysis.Pass, expect []string, actual []ast.Expr, prefix string) bool {
	for i, x := range expect {
	if !strings.HasPrefix(x, prefix) {
	continue
	}
	if i >= len(actual) {
	return false
	}
	if !matchParamType(pass.Fset, pass.Pkg, x, actual[i]) {
	return false
	}
	}
	if prefix == "" && len(actual) > len(expect) {
	return false
	}
	return true
	}

	// Does this one type match?
	func matchParamType(fset token.FileSet, pkg types.Package, expect string, actual ast.Expr) bool {
	expect = strings.TrimPrefix(expect, "=")
	// Strip package name if we're in that package.
	if n := len(pkg.Name()); len(expect) > n && expect[:n] == pkg.Name() && expect[n] == '.' {
	expect = expect[n+1:]
	}

	// Overkill but easy.
	var buf bytes.Buffer
	printer.Fprint(&buf, fset, actual)
	return buf.String() == expect
	}