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mirror of https://github.com/golang/go synced 2024-11-18 14:14:46 -07:00
go/cmd/vet/method.go
David Symonds f895b43688 vet: Rearrange checkers to use a registration system.
This removes much of the AST logic out of main.go,
and makes it easier to build custom vet binaries

The trade-off in this change is for flexibility.
There's very little change in the per-check files,
a lot less code in main.go (specifically the AST walking
logic has shrunk), and it makes it much easier to build
custom vet binaries simply by dropping new source files
in the directory.

LGTM=josharian, r
R=r, josharian, kamil.kisiel
CC=golang-codereviews
https://golang.org/cl/83400043
2014-06-13 15:04:45 +10:00

183 lines
5.9 KiB
Go

// 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.
// This file contains the code to check canonical methods.
package main
import (
"fmt"
"go/ast"
"go/printer"
"strings"
)
func init() {
register("methods",
"check that canonically named methods are canonically defined",
checkCanonicalMethod,
funcDecl, interfaceType)
}
type MethodSig struct {
args []string
results []string
}
// 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]MethodSig{
// "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
"Peek": {[]string{"=int"}, []string{"[]byte", "error"}}, // image.reader (matching bufio.Reader)
"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 checkCanonicalMethod(f *File, node ast.Node) {
switch n := node.(type) {
case *ast.FuncDecl:
if n.Recv != nil {
canonicalMethod(f, n.Name, n.Type)
}
case *ast.InterfaceType:
for _, field := range n.Methods.List {
for _, id := range field.Names {
canonicalMethod(f, id, field.Type.(*ast.FuncType))
}
}
}
}
func canonicalMethod(f *File, 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 !f.matchParams(expect.args, args, "=") || !f.matchParams(expect.results, results, "=") {
return
}
// Everything must match.
if !f.matchParams(expect.args, args, "") || !f.matchParams(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) + ")"
}
f.b.Reset()
if err := printer.Fprint(&f.b, f.fset, t); err != nil {
fmt.Fprintf(&f.b, "<%s>", err)
}
actual := f.b.String()
actual = strings.TrimPrefix(actual, "func")
actual = id.Name + actual
f.Badf(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 (f *File) matchParams(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 !f.matchParamType(x, actual[i]) {
return false
}
}
if prefix == "" && len(actual) > len(expect) {
return false
}
return true
}
// Does this one type match?
func (f *File) matchParamType(expect string, actual ast.Expr) bool {
if strings.HasPrefix(expect, "=") {
expect = expect[1:]
}
// Strip package name if we're in that package.
if n := len(f.file.Name.Name); len(expect) > n && expect[:n] == f.file.Name.Name && expect[n] == '.' {
expect = expect[n+1:]
}
// Overkill but easy.
f.b.Reset()
printer.Fprint(&f.b, f.fset, actual)
return f.b.String() == expect
}