mirror of
https://github.com/golang/go
synced 2024-11-18 22:14:56 -07:00
01f8cd246d
They will be deleted from their current homes once this has landed. Changes made to import paths to make the code compile, and to find errchk in the right place in cmd/vet's Makefile. TODO in a later CL: tidy up vet. R=golang-dev, gri CC=golang-dev https://golang.org/cl/9495043
352 lines
9.8 KiB
Go
352 lines
9.8 KiB
Go
// Copyright 2010 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// This file contains the printf-checker.
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package main
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import (
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"flag"
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"go/ast"
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"go/token"
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"strconv"
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"strings"
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"unicode/utf8"
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)
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var printfuncs = flag.String("printfuncs", "", "comma-separated list of print function names to check")
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// printfList records the formatted-print functions. The value is the location
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// of the format parameter. Names are lower-cased so the lookup is
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// case insensitive.
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var printfList = map[string]int{
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"errorf": 0,
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"fatalf": 0,
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"fprintf": 1,
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"panicf": 0,
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"printf": 0,
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"sprintf": 0,
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}
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// printList records the unformatted-print functions. The value is the location
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// of the first parameter to be printed. Names are lower-cased so the lookup is
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// case insensitive.
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var printList = map[string]int{
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"error": 0,
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"fatal": 0,
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"fprint": 1, "fprintln": 1,
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"panic": 0, "panicln": 0,
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"print": 0, "println": 0,
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"sprint": 0, "sprintln": 0,
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}
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// checkCall triggers the print-specific checks if the call invokes a print function.
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func (f *File) checkFmtPrintfCall(call *ast.CallExpr, Name string) {
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if !vet("printf") {
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return
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}
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name := strings.ToLower(Name)
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if skip, ok := printfList[name]; ok {
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f.checkPrintf(call, Name, skip)
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return
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}
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if skip, ok := printList[name]; ok {
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f.checkPrint(call, Name, skip)
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return
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}
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}
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// literal returns the literal value represented by the expression, or nil if it is not a literal.
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func (f *File) literal(value ast.Expr) *ast.BasicLit {
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switch v := value.(type) {
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case *ast.BasicLit:
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return v
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case *ast.ParenExpr:
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return f.literal(v.X)
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case *ast.BinaryExpr:
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if v.Op != token.ADD {
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break
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}
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litX := f.literal(v.X)
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litY := f.literal(v.Y)
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if litX != nil && litY != nil {
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lit := *litX
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x, errX := strconv.Unquote(litX.Value)
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y, errY := strconv.Unquote(litY.Value)
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if errX == nil && errY == nil {
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return &ast.BasicLit{
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ValuePos: lit.ValuePos,
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Kind: lit.Kind,
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Value: strconv.Quote(x + y),
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}
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}
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}
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case *ast.Ident:
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// See if it's a constant or initial value (we can't tell the difference).
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if v.Obj == nil || v.Obj.Decl == nil {
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return nil
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}
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valueSpec, ok := v.Obj.Decl.(*ast.ValueSpec)
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if ok && len(valueSpec.Names) == len(valueSpec.Values) {
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// Find the index in the list of names
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var i int
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for i = 0; i < len(valueSpec.Names); i++ {
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if valueSpec.Names[i].Name == v.Name {
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if lit, ok := valueSpec.Values[i].(*ast.BasicLit); ok {
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return lit
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}
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return nil
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}
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}
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}
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}
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return nil
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}
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// checkPrintf checks a call to a formatted print routine such as Printf.
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// call.Args[formatIndex] is (well, should be) the format argument.
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func (f *File) checkPrintf(call *ast.CallExpr, name string, formatIndex int) {
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if formatIndex >= len(call.Args) {
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return
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}
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lit := f.literal(call.Args[formatIndex])
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if lit == nil {
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if *verbose {
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f.Warn(call.Pos(), "can't check non-literal format in call to", name)
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}
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return
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}
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if lit.Kind != token.STRING {
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f.Badf(call.Pos(), "literal %v not a string in call to", lit.Value, name)
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}
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format, err := strconv.Unquote(lit.Value)
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if err != nil {
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// Shouldn't happen if parser returned no errors, but be safe.
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f.Badf(call.Pos(), "invalid quoted string literal")
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}
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firstArg := formatIndex + 1 // Arguments are immediately after format string.
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if !strings.Contains(format, "%") {
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if len(call.Args) > firstArg {
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f.Badf(call.Pos(), "no formatting directive in %s call", name)
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}
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return
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}
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// Hard part: check formats against args.
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argNum := firstArg
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for i, w := 0, 0; i < len(format); i += w {
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w = 1
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if format[i] == '%' {
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verb, flags, nbytes, nargs := f.parsePrintfVerb(call, format[i:])
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w = nbytes
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if verb == '%' { // "%%" does nothing interesting.
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continue
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}
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// If we've run out of args, print after loop will pick that up.
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if argNum+nargs <= len(call.Args) {
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f.checkPrintfArg(call, verb, flags, argNum, nargs)
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}
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argNum += nargs
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}
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}
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// TODO: Dotdotdot is hard.
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if call.Ellipsis.IsValid() && argNum != len(call.Args) {
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return
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}
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if argNum != len(call.Args) {
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expect := argNum - firstArg
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numArgs := len(call.Args) - firstArg
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f.Badf(call.Pos(), "wrong number of args for format in %s call: %d needed but %d args", name, expect, numArgs)
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}
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}
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// parsePrintfVerb returns the verb that begins the format string, along with its flags,
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// the number of bytes to advance the format to step past the verb, and number of
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// arguments it consumes.
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func (f *File) parsePrintfVerb(call *ast.CallExpr, format string) (verb rune, flags []byte, nbytes, nargs int) {
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// There's guaranteed a percent sign.
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flags = make([]byte, 0, 5)
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nbytes = 1
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end := len(format)
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// There may be flags.
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FlagLoop:
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for nbytes < end {
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switch format[nbytes] {
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case '#', '0', '+', '-', ' ':
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flags = append(flags, format[nbytes])
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nbytes++
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default:
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break FlagLoop
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}
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}
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getNum := func() {
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if nbytes < end && format[nbytes] == '*' {
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nbytes++
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nargs++
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} else {
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for nbytes < end && '0' <= format[nbytes] && format[nbytes] <= '9' {
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nbytes++
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}
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}
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}
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// There may be a width.
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getNum()
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// If there's a period, there may be a precision.
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if nbytes < end && format[nbytes] == '.' {
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flags = append(flags, '.') // Treat precision as a flag.
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nbytes++
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getNum()
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}
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// Now a verb.
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c, w := utf8.DecodeRuneInString(format[nbytes:])
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nbytes += w
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verb = c
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if c != '%' {
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nargs++
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}
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return
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}
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// printfArgType encodes the types of expressions a printf verb accepts. It is a bitmask.
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type printfArgType int
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const (
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argBool printfArgType = 1 << iota
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argInt
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argRune
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argString
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argFloat
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argPointer
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anyType printfArgType = ^0
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)
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type printVerb struct {
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verb rune
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flags string // known flags are all ASCII
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typ printfArgType
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}
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// Common flag sets for printf verbs.
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const (
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numFlag = " -+.0"
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sharpNumFlag = " -+.0#"
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allFlags = " -+.0#"
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)
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// printVerbs identifies which flags are known to printf for each verb.
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// TODO: A type that implements Formatter may do what it wants, and vet
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// will complain incorrectly.
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var printVerbs = []printVerb{
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// '-' is a width modifier, always valid.
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// '.' is a precision for float, max width for strings.
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// '+' is required sign for numbers, Go format for %v.
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// '#' is alternate format for several verbs.
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// ' ' is spacer for numbers
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{'b', numFlag, argInt | argFloat},
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{'c', "-", argRune | argInt},
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{'d', numFlag, argInt},
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{'e', numFlag, argFloat},
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{'E', numFlag, argFloat},
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{'f', numFlag, argFloat},
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{'F', numFlag, argFloat},
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{'g', numFlag, argFloat},
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{'G', numFlag, argFloat},
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{'o', sharpNumFlag, argInt},
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{'p', "-#", argPointer},
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{'q', " -+.0#", argRune | argInt | argString},
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{'s', " -+.0", argString},
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{'t', "-", argBool},
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{'T', "-", anyType},
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{'U', "-#", argRune | argInt},
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{'v', allFlags, anyType},
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{'x', sharpNumFlag, argRune | argInt | argString},
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{'X', sharpNumFlag, argRune | argInt | argString},
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}
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const printfVerbs = "bcdeEfFgGopqstTvxUX"
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func (f *File) checkPrintfArg(call *ast.CallExpr, verb rune, flags []byte, argNum, nargs int) {
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// Linear scan is fast enough for a small list.
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for _, v := range printVerbs {
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if v.verb == verb {
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for _, flag := range flags {
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if !strings.ContainsRune(v.flags, rune(flag)) {
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f.Badf(call.Pos(), "unrecognized printf flag for verb %q: %q", verb, flag)
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return
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}
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}
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// Verb is good. If nargs>1, we have something like %.*s and all but the final
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// arg must be integer.
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for i := 0; i < nargs-1; i++ {
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if !f.matchArgType(argInt, call.Args[argNum+i]) {
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f.Badf(call.Pos(), "arg %s for * in printf format not of type int", f.gofmt(call.Args[argNum+i]))
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}
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}
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for _, v := range printVerbs {
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if v.verb == verb {
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arg := call.Args[argNum+nargs-1]
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if !f.matchArgType(v.typ, arg) {
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typeString := ""
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if typ := f.pkg.types[arg]; typ != nil {
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typeString = typ.String()
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}
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f.Badf(call.Pos(), "arg %s for printf verb %%%c of wrong type: %s", f.gofmt(arg), verb, typeString)
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}
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break
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}
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}
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return
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}
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}
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f.Badf(call.Pos(), "unrecognized printf verb %q", verb)
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}
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// checkPrint checks a call to an unformatted print routine such as Println.
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// call.Args[firstArg] is the first argument to be printed.
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func (f *File) checkPrint(call *ast.CallExpr, name string, firstArg int) {
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isLn := strings.HasSuffix(name, "ln")
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isF := strings.HasPrefix(name, "F")
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args := call.Args
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// check for Println(os.Stderr, ...)
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if firstArg == 0 && !isF && len(args) > 0 {
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if sel, ok := args[0].(*ast.SelectorExpr); ok {
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if x, ok := sel.X.(*ast.Ident); ok {
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if x.Name == "os" && strings.HasPrefix(sel.Sel.Name, "Std") {
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f.Badf(call.Pos(), "first argument to %s is %s.%s", name, x.Name, sel.Sel.Name)
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}
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}
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}
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}
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if len(args) <= firstArg {
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// If we have a call to a method called Error that satisfies the Error interface,
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// then it's ok. Otherwise it's something like (*T).Error from the testing package
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// and we need to check it.
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if name == "Error" && f.isErrorMethodCall(call) {
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return
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}
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// If it's an Error call now, it's probably for printing errors.
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if !isLn {
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// Check the signature to be sure: there are niladic functions called "error".
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if firstArg != 0 || f.numArgsInSignature(call) != firstArg {
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f.Badf(call.Pos(), "no args in %s call", name)
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}
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}
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return
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}
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arg := args[firstArg]
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if lit, ok := arg.(*ast.BasicLit); ok && lit.Kind == token.STRING {
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if strings.Contains(lit.Value, "%") {
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f.Badf(call.Pos(), "possible formatting directive in %s call", name)
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}
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}
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if isLn {
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// The last item, if a string, should not have a newline.
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arg = args[len(call.Args)-1]
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if lit, ok := arg.(*ast.BasicLit); ok && lit.Kind == token.STRING {
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if strings.HasSuffix(lit.Value, `\n"`) {
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f.Badf(call.Pos(), "%s call ends with newline", name)
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}
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}
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}
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}
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