mirror of
https://github.com/golang/go
synced 2024-11-05 21:36:12 -07:00
25f3e0fbde
Details: - added support for complex numbers as distinct from floats: %[efg] allows complex; %b does not. - %p: only Signature, Map, Chan, Slice, unsafe.Pointer allowed. - %s: allow []byte. - allow a verb to match map[K]V and []T if it matches K/V/T, e.g. %d now matches []int. i.e. matching is recursive. - use go/types' constant folding. literal() is gone. - group cases together. Added tests. R=gri, r CC=golang-dev https://golang.org/cl/10895043
201 lines
8.4 KiB
Go
201 lines
8.4 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 tests for the printf checker.
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package testdata
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import (
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"fmt"
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"os"
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"unsafe" // just for test case printing unsafe.Pointer
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)
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func UnsafePointerPrintfTest() {
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var up unsafe.Pointer
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fmt.Printf("%p, %x %X", up, up, up)
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}
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// Error methods that do not satisfy the Error interface and should be checked.
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type errorTest1 int
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func (errorTest1) Error(...interface{}) string {
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return "hi"
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}
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type errorTest2 int // Analogous to testing's *T type.
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func (errorTest2) Error(...interface{}) {
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}
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type errorTest3 int
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func (errorTest3) Error() { // No return value.
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}
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type errorTest4 int
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func (errorTest4) Error() int { // Different return type.
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return 3
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}
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type errorTest5 int
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func (errorTest5) error() { // niladic; don't complain if no args (was bug)
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}
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// This function never executes, but it serves as a simple test for the program.
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// Test with make test.
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func PrintfTests() {
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var b bool
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var i int
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var r rune
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var s string
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var x float64
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var p *int
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var imap map[int]int
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var fslice []float64
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var c complex64
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// Some good format/argtypes
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fmt.Printf("")
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fmt.Printf("%b %b %b", 3, i, x)
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fmt.Printf("%c %c %c %c", 3, i, 'x', r)
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fmt.Printf("%d %d %d", 3, i, imap)
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fmt.Printf("%e %e %e %e", 3e9, x, fslice, c)
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fmt.Printf("%E %E %E %E", 3e9, x, fslice, c)
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fmt.Printf("%f %f %f %f", 3e9, x, fslice, c)
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fmt.Printf("%F %F %F %F", 3e9, x, fslice, c)
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fmt.Printf("%g %g %g %g", 3e9, x, fslice, c)
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fmt.Printf("%G %G %G %G", 3e9, x, fslice, c)
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fmt.Printf("%o %o", 3, i)
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fmt.Printf("%p %p", p, nil)
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fmt.Printf("%q %q %q %q", 3, i, 'x', r)
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fmt.Printf("%s %s %s", "hi", s, []byte{65})
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fmt.Printf("%t %t", true, b)
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fmt.Printf("%T %T", 3, i)
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fmt.Printf("%U %U", 3, i)
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fmt.Printf("%v %v", 3, i)
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fmt.Printf("%x %x %x %x", 3, i, "hi", s)
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fmt.Printf("%X %X %X %X", 3, i, "hi", s)
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fmt.Printf("%.*s %d %g", 3, "hi", 23, 2.3)
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fmt.Printf("%s", &stringerv)
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fmt.Printf("%T", &stringerv)
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fmt.Printf("%*%", 2) // Ridiculous but allowed.
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fmt.Printf("%g", 1+2i)
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// Some bad format/argTypes
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fmt.Printf("%b", "hi") // ERROR "arg .hi. for printf verb %b of wrong type"
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fmt.Printf("%b", c) // ERROR "arg c for printf verb %b of wrong type"
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fmt.Printf("%b", 1+2i) // ERROR "arg 1 \+ 2i for printf verb %b of wrong type"
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fmt.Printf("%c", 2.3) // ERROR "arg 2.3 for printf verb %c of wrong type"
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fmt.Printf("%d", 2.3) // ERROR "arg 2.3 for printf verb %d of wrong type"
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fmt.Printf("%e", "hi") // ERROR "arg .hi. for printf verb %e of wrong type"
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fmt.Printf("%E", true) // ERROR "arg true for printf verb %E of wrong type"
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fmt.Printf("%f", "hi") // ERROR "arg .hi. for printf verb %f of wrong type"
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fmt.Printf("%F", 'x') // ERROR "arg 'x' for printf verb %F of wrong type"
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fmt.Printf("%g", "hi") // ERROR "arg .hi. for printf verb %g of wrong type"
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fmt.Printf("%g", imap) // ERROR "arg imap for printf verb %g of wrong type"
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fmt.Printf("%G", i) // ERROR "arg i for printf verb %G of wrong type"
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fmt.Printf("%o", x) // ERROR "arg x for printf verb %o of wrong type"
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fmt.Printf("%p", 23) // ERROR "arg 23 for printf verb %p of wrong type"
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fmt.Printf("%q", x) // ERROR "arg x for printf verb %q of wrong type"
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fmt.Printf("%s", b) // ERROR "arg b for printf verb %s of wrong type"
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fmt.Printf("%s", byte(65)) // ERROR "arg byte\(65\) for printf verb %s of wrong type"
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fmt.Printf("%t", 23) // ERROR "arg 23 for printf verb %t of wrong type"
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fmt.Printf("%U", x) // ERROR "arg x for printf verb %U of wrong type"
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fmt.Printf("%x", nil) // ERROR "arg nil for printf verb %x of wrong type"
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fmt.Printf("%X", 2.3) // ERROR "arg 2.3 for printf verb %X of wrong type"
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fmt.Printf("%s", stringerv) // ERROR "arg stringerv for printf verb %s of wrong type"
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fmt.Printf("%t", stringerv) // ERROR "arg stringerv for printf verb %t of wrong type"
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fmt.Printf("%.*s %d %g", 3, "hi", 23, 'x') // ERROR "arg 'x' for printf verb %g of wrong type"
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fmt.Println() // not an error
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fmt.Println("%s", "hi") // ERROR "possible formatting directive in Println call"
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fmt.Printf("%s", "hi", 3) // ERROR "wrong number of args for format in Printf call"
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fmt.Sprintf("%"+("s"), "hi", 3) // ERROR "wrong number of args for format in Sprintf call"
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fmt.Printf("%s%%%d", "hi", 3) // correct
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fmt.Printf("%08s", "woo") // correct
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fmt.Printf("% 8s", "woo") // correct
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fmt.Printf("%.*d", 3, 3) // correct
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fmt.Printf("%.*d", 3, 3, 3) // ERROR "wrong number of args for format in Printf call"
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fmt.Printf("%.*d", "hi", 3) // ERROR "arg .hi. for \* in printf format not of type int"
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fmt.Printf("%.*d", i, 3) // correct
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fmt.Printf("%.*d", s, 3) // ERROR "arg s for \* in printf format not of type int"
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fmt.Printf("%*%", 0.22) // ERROR "arg 0.22 for \* in printf format not of type int"
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fmt.Printf("%q %q", multi()...) // ok
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fmt.Printf("%#q", `blah`) // ok
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printf("now is the time", "buddy") // ERROR "no formatting directive"
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Printf("now is the time", "buddy") // ERROR "no formatting directive"
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Printf("hi") // ok
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const format = "%s %s\n"
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Printf(format, "hi", "there")
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Printf(format, "hi") // ERROR "missing argument for Printf verb %s: need 2, have 1"
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f := new(stringer)
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f.Warn(0, "%s", "hello", 3) // ERROR "possible formatting directive in Warn call"
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f.Warnf(0, "%s", "hello", 3) // ERROR "wrong number of args for format in Warnf call"
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f.Warnf(0, "%r", "hello") // ERROR "unrecognized printf verb"
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f.Warnf(0, "%#s", "hello") // ERROR "unrecognized printf flag"
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Printf("d%", 2) // ERROR "missing verb at end of format string in Printf call"
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// Good argument reorderings.
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Printf("%[1]d", 3)
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Printf("%[1]*d", 3, 1)
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Printf("%[2]*[1]d", 1, 3)
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Printf("%[2]*.[1]*[3]d", 2, 3, 4)
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fmt.Fprintf(os.Stderr, "%[2]*.[1]*[3]d", 2, 3, 4) // Use Fprintf to make sure we count arguments correctly.
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// Bad argument reorderings.
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Printf("%[xd", 3) // ERROR "illegal syntax for printf argument index"
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Printf("%[x]d", 3) // ERROR "illegal syntax for printf argument index"
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Printf("%[3]*s", "hi", 2) // ERROR "missing argument for Printf indirect \*: need 3, have 2"
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fmt.Sprintf("%[3]d", 2) // ERROR "missing argument for Sprintf verb %d: need 3, have 1"
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Printf("%[2]*.[1]*[3]d", 2, "hi", 4) // ERROR "arg .hi. for \* in printf format not of type int"
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// Something that satisfies the error interface.
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var e error
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fmt.Println(e.Error()) // ok
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// Something that looks like an error interface but isn't, such as the (*T).Error method
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// in the testing package.
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var et1 errorTest1
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fmt.Println(et1.Error()) // ERROR "no args in Error call"
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fmt.Println(et1.Error("hi")) // ok
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fmt.Println(et1.Error("%d", 3)) // ERROR "possible formatting directive in Error call"
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var et2 errorTest2
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et2.Error() // ERROR "no args in Error call"
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et2.Error("hi") // ok, not an error method.
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et2.Error("%d", 3) // ERROR "possible formatting directive in Error call"
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var et3 errorTest3
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et3.Error() // ok, not an error method.
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var et4 errorTest4
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et4.Error() // ok, not an error method.
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var et5 errorTest5
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et5.error() // ok, not an error method.
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}
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// Printf is used by the test so we must declare it.
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func Printf(format string, args ...interface{}) {
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panic("don't call - testing only")
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}
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// printf is used by the test so we must declare it.
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func printf(format string, args ...interface{}) {
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panic("don't call - testing only")
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}
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// multi is used by the test.
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func multi() []interface{} {
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panic("don't call - testing only")
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}
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type stringer float64
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var stringerv stringer
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func (*stringer) String() string {
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return "string"
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}
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func (*stringer) Warn(int, ...interface{}) string {
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return "warn"
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}
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func (*stringer) Warnf(int, string, ...interface{}) string {
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return "warnf"
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}
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