mirror of
https://github.com/golang/go
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5ebbcd132f
Rewrite performed with this command: sed -i '' 's_code.google.com/p/go\._golang.org/x/_g' \ $(grep -lr 'code.google.com/p/go.' *) LGTM=rsc R=rsc CC=golang-codereviews https://golang.org/cl/170920043
558 lines
16 KiB
Go
558 lines
16 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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"bytes"
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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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"golang.org/x/tools/go/exact"
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"golang.org/x/tools/go/types"
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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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func init() {
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register("printf",
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"check printf-like invocations",
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checkFmtPrintfCall,
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funcDecl, callExpr)
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}
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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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"logf": 0,
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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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"log": 0,
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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 checkFmtPrintfCall(f *File, node ast.Node) {
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if d, ok := node.(*ast.FuncDecl); ok && isStringer(f, d) {
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// Remember we saw this.
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if f.stringers == nil {
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f.stringers = make(map[*ast.Object]bool)
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}
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if l := d.Recv.List; len(l) == 1 {
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if n := l[0].Names; len(n) == 1 {
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f.stringers[n[0].Obj] = true
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}
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}
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return
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}
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call, ok := node.(*ast.CallExpr)
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if !ok {
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return
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}
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var Name string
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switch x := call.Fun.(type) {
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case *ast.Ident:
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Name = x.Name
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case *ast.SelectorExpr:
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Name = x.Sel.Name
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default:
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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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// isStringer returns true if the provided declaration is a "String() string"
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// method, an implementation of fmt.Stringer.
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func isStringer(f *File, d *ast.FuncDecl) bool {
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return d.Recv != nil && d.Name.Name == "String" && d.Type.Results != nil &&
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len(d.Type.Params.List) == 0 && len(d.Type.Results.List) == 1 &&
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f.pkg.types[d.Type.Results.List[0].Type].Type == types.Typ[types.String]
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}
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// formatState holds the parsed representation of a printf directive such as "%3.*[4]d".
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// It is constructed by parsePrintfVerb.
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type formatState struct {
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verb rune // the format verb: 'd' for "%d"
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format string // the full format directive from % through verb, "%.3d".
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name string // Printf, Sprintf etc.
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flags []byte // the list of # + etc.
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argNums []int // the successive argument numbers that are consumed, adjusted to refer to actual arg in call
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indexed bool // whether an indexing expression appears: %[1]d.
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firstArg int // Index of first argument after the format in the Printf call.
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// Used only during parse.
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file *File
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call *ast.CallExpr
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argNum int // Which argument we're expecting to format now.
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indexPending bool // Whether we have an indexed argument that has not resolved.
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nbytes int // number of bytes of the format string consumed.
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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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f.Bad(call.Pos(), "too few arguments in call to", name)
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return
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}
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lit := f.pkg.types[call.Args[formatIndex]].Value
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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-constant 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() != exact.String {
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f.Badf(call.Pos(), "constant %v not a string in call to %s", lit, name)
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return
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}
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format := exact.StringVal(lit)
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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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indexed := false
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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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state := f.parsePrintfVerb(call, name, format[i:], firstArg, argNum)
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if state == nil {
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return
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}
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w = len(state.format)
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if state.indexed {
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indexed = true
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}
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if !f.okPrintfArg(call, state) { // One error per format is enough.
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return
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}
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if len(state.argNums) > 0 {
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// Continue with the next sequential argument.
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argNum = state.argNums[len(state.argNums)-1] + 1
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}
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}
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}
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// Dotdotdot is hard.
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if call.Ellipsis.IsValid() && argNum >= len(call.Args)-1 {
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return
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}
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// If the arguments were direct indexed, we assume the programmer knows what's up.
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// Otherwise, there should be no leftover arguments.
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if !indexed && 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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// parseFlags accepts any printf flags.
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func (s *formatState) parseFlags() {
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for s.nbytes < len(s.format) {
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switch c := s.format[s.nbytes]; c {
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case '#', '0', '+', '-', ' ':
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s.flags = append(s.flags, c)
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s.nbytes++
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default:
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return
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}
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}
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}
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// scanNum advances through a decimal number if present.
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func (s *formatState) scanNum() {
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for ; s.nbytes < len(s.format); s.nbytes++ {
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c := s.format[s.nbytes]
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if c < '0' || '9' < c {
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return
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}
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}
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}
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// parseIndex scans an index expression. It returns false if there is a syntax error.
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func (s *formatState) parseIndex() bool {
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if s.nbytes == len(s.format) || s.format[s.nbytes] != '[' {
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return true
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}
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// Argument index present.
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s.indexed = true
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s.nbytes++ // skip '['
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start := s.nbytes
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s.scanNum()
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if s.nbytes == len(s.format) || s.nbytes == start || s.format[s.nbytes] != ']' {
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s.file.Badf(s.call.Pos(), "illegal syntax for printf argument index")
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return false
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}
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arg32, err := strconv.ParseInt(s.format[start:s.nbytes], 10, 32)
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if err != nil {
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s.file.Badf(s.call.Pos(), "illegal syntax for printf argument index: %s", err)
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return false
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}
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s.nbytes++ // skip ']'
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arg := int(arg32)
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arg += s.firstArg - 1 // We want to zero-index the actual arguments.
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s.argNum = arg
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s.indexPending = true
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return true
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}
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// parseNum scans a width or precision (or *). It returns false if there's a bad index expression.
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func (s *formatState) parseNum() bool {
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if s.nbytes < len(s.format) && s.format[s.nbytes] == '*' {
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if s.indexPending { // Absorb it.
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s.indexPending = false
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}
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s.nbytes++
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s.argNums = append(s.argNums, s.argNum)
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s.argNum++
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} else {
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s.scanNum()
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}
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return true
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}
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// parsePrecision scans for a precision. It returns false if there's a bad index expression.
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func (s *formatState) parsePrecision() bool {
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// If there's a period, there may be a precision.
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if s.nbytes < len(s.format) && s.format[s.nbytes] == '.' {
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s.flags = append(s.flags, '.') // Treat precision as a flag.
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s.nbytes++
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if !s.parseIndex() {
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return false
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}
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if !s.parseNum() {
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return false
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}
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}
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return true
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}
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// parsePrintfVerb looks the formatting directive that begins the format string
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// and returns a formatState that encodes what the directive wants, without looking
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// at the actual arguments present in the call. The result is nil if there is an error.
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func (f *File) parsePrintfVerb(call *ast.CallExpr, name, format string, firstArg, argNum int) *formatState {
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state := &formatState{
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format: format,
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name: name,
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flags: make([]byte, 0, 5),
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argNum: argNum,
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argNums: make([]int, 0, 1),
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nbytes: 1, // There's guaranteed to be a percent sign.
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indexed: false,
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firstArg: firstArg,
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file: f,
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call: call,
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}
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// There may be flags.
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state.parseFlags()
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indexPending := false
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// There may be an index.
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if !state.parseIndex() {
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return nil
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}
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// There may be a width.
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if !state.parseNum() {
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return nil
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}
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// There may be a precision.
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if !state.parsePrecision() {
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return nil
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}
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// Now a verb, possibly prefixed by an index (which we may already have).
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if !indexPending && !state.parseIndex() {
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return nil
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}
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if state.nbytes == len(state.format) {
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f.Badf(call.Pos(), "missing verb at end of format string in %s call", name)
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return nil
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}
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verb, w := utf8.DecodeRuneInString(state.format[state.nbytes:])
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state.verb = verb
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state.nbytes += w
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if verb != '%' {
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state.argNums = append(state.argNums, state.argNum)
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}
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state.format = state.format[:state.nbytes]
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return state
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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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argComplex
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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 // User may provide verb through Formatter; could be a 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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noFlag = ""
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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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{'%', noFlag, 0},
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{'b', numFlag, argInt | argFloat | argComplex},
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{'c', "-", argRune | argInt},
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{'d', numFlag, argInt},
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{'e', numFlag, argFloat | argComplex},
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{'E', numFlag, argFloat | argComplex},
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{'f', numFlag, argFloat | argComplex},
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{'F', numFlag, argFloat | argComplex},
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{'g', numFlag, argFloat | argComplex},
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{'G', numFlag, argFloat | argComplex},
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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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// okPrintfArg compares the formatState to the arguments actually present,
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// reporting any discrepancies it can discern. If the final argument is ellipsissed,
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// there's little it can do for that.
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func (f *File) okPrintfArg(call *ast.CallExpr, state *formatState) (ok bool) {
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var v printVerb
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found := false
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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 == state.verb {
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found = true
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break
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}
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}
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if !found {
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f.Badf(call.Pos(), "unrecognized printf verb %q", state.verb)
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return false
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}
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for _, flag := range state.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", state.verb, flag)
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return false
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}
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}
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// Verb is good. If len(state.argNums)>trueArgs, we have something like %.*s and all
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// but the final arg must be an integer.
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trueArgs := 1
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if state.verb == '%' {
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trueArgs = 0
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}
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nargs := len(state.argNums)
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for i := 0; i < nargs-trueArgs; i++ {
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argNum := state.argNums[i]
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if !f.argCanBeChecked(call, i, true, state) {
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return
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}
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arg := call.Args[argNum]
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if !f.matchArgType(argInt, nil, arg) {
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f.Badf(call.Pos(), "arg %s for * in printf format not of type int", f.gofmt(arg))
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return false
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}
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}
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if state.verb == '%' {
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return true
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}
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argNum := state.argNums[len(state.argNums)-1]
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if !f.argCanBeChecked(call, len(state.argNums)-1, false, state) {
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return false
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}
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arg := call.Args[argNum]
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if !f.matchArgType(v.typ, nil, arg) {
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typeString := ""
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if typ := f.pkg.types[arg].Type; 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), state.verb, typeString)
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return false
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}
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if v.typ&argString != 0 && v.verb != 'T' && !bytes.Contains(state.flags, []byte{'#'}) && f.recursiveStringer(arg) {
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f.Badf(call.Pos(), "arg %s for printf causes recursive call to String method", f.gofmt(arg))
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return false
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}
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return true
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}
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// recursiveStringer reports whether the provided argument is r or &r for the
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// fmt.Stringer receiver identifier r.
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func (f *File) recursiveStringer(e ast.Expr) bool {
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if len(f.stringers) == 0 {
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return false
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}
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var obj *ast.Object
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switch e := e.(type) {
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case *ast.Ident:
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obj = e.Obj
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case *ast.UnaryExpr:
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if id, ok := e.X.(*ast.Ident); ok && e.Op == token.AND {
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obj = id.Obj
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}
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}
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// It's unlikely to be a recursive stringer if it has a Format method.
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if typ := f.pkg.types[e].Type; typ != nil {
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// Not a perfect match; see issue 6259.
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if f.hasMethod(typ, "Format") {
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return false
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}
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}
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// We compare the underlying Object, which checks that the identifier
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// is the one we declared as the receiver for the String method in
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// which this printf appears.
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return f.stringers[obj]
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}
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// argCanBeChecked reports whether the specified argument is statically present;
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// it may be beyond the list of arguments or in a terminal slice... argument, which
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// means we can't see it.
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func (f *File) argCanBeChecked(call *ast.CallExpr, formatArg int, isStar bool, state *formatState) bool {
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argNum := state.argNums[formatArg]
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if argNum < 0 {
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// Shouldn't happen, so catch it with prejudice.
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panic("negative arg num")
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}
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if argNum < len(call.Args)-1 {
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return true // Always OK.
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}
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if call.Ellipsis.IsValid() {
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return false // We just can't tell; there could be many more arguments.
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}
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if argNum < len(call.Args) {
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return true
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}
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// There are bad indexes in the format or there are fewer arguments than the format needs.
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// This is the argument number relative to the format: Printf("%s", "hi") will give 1 for the "hi".
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arg := argNum - state.firstArg + 1 // People think of arguments as 1-indexed.
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f.Badf(call.Pos(), `missing argument for %s("%s"): format reads arg %d, have only %d args`, state.name, state.format, arg, len(call.Args)-state.firstArg)
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return false
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}
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|
// checkPrint checks a call to an unformatted print routine such as Println.
|
|
// call.Args[firstArg] is the first argument to be printed.
|
|
func (f *File) checkPrint(call *ast.CallExpr, name string, firstArg int) {
|
|
isLn := strings.HasSuffix(name, "ln")
|
|
isF := strings.HasPrefix(name, "F")
|
|
args := call.Args
|
|
if name == "Log" && len(args) > 0 {
|
|
// Special case: Don't complain about math.Log or cmplx.Log.
|
|
// Not strictly necessary because the only complaint likely is for Log("%d")
|
|
// but it feels wrong to check that math.Log is a good print function.
|
|
if sel, ok := args[0].(*ast.SelectorExpr); ok {
|
|
if x, ok := sel.X.(*ast.Ident); ok {
|
|
if x.Name == "math" || x.Name == "cmplx" {
|
|
return
|
|
}
|
|
}
|
|
}
|
|
}
|
|
// check for Println(os.Stderr, ...)
|
|
if firstArg == 0 && !isF && len(args) > 0 {
|
|
if sel, ok := args[0].(*ast.SelectorExpr); ok {
|
|
if x, ok := sel.X.(*ast.Ident); ok {
|
|
if x.Name == "os" && strings.HasPrefix(sel.Sel.Name, "Std") {
|
|
f.Badf(call.Pos(), "first argument to %s is %s.%s", name, x.Name, sel.Sel.Name)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
if len(args) <= firstArg {
|
|
// If we have a call to a method called Error that satisfies the Error interface,
|
|
// then it's ok. Otherwise it's something like (*T).Error from the testing package
|
|
// and we need to check it.
|
|
if name == "Error" && f.isErrorMethodCall(call) {
|
|
return
|
|
}
|
|
// If it's an Error call now, it's probably for printing errors.
|
|
if !isLn {
|
|
// Check the signature to be sure: there are niladic functions called "error".
|
|
if firstArg != 0 || f.numArgsInSignature(call) != firstArg {
|
|
f.Badf(call.Pos(), "no args in %s call", name)
|
|
}
|
|
}
|
|
return
|
|
}
|
|
arg := args[firstArg]
|
|
if lit, ok := arg.(*ast.BasicLit); ok && lit.Kind == token.STRING {
|
|
if strings.Contains(lit.Value, "%") {
|
|
f.Badf(call.Pos(), "possible formatting directive in %s call", name)
|
|
}
|
|
}
|
|
if isLn {
|
|
// The last item, if a string, should not have a newline.
|
|
arg = args[len(call.Args)-1]
|
|
if lit, ok := arg.(*ast.BasicLit); ok && lit.Kind == token.STRING {
|
|
if strings.HasSuffix(lit.Value, `\n"`) {
|
|
f.Badf(call.Pos(), "%s call ends with newline", name)
|
|
}
|
|
}
|
|
}
|
|
for _, arg := range args {
|
|
if f.recursiveStringer(arg) {
|
|
f.Badf(call.Pos(), "arg %s for print causes recursive call to String method", f.gofmt(arg))
|
|
}
|
|
}
|
|
}
|