4f4a855d82
Reviewed-on: https://go-review.googlesource.com/c/158019 gotools/: * Makefile.am (go_cmd_vet_files): Update for Go1.12beta2 release. (GOTOOLS_TEST_TIMEOUT): Increase to 600. (check-runtime): Export LD_LIBRARY_PATH before computing GOARCH and GOOS. (check-vet): Copy golang.org/x/tools into check-vet-dir. * Makefile.in: Regenerate. gcc/testsuite/: * go.go-torture/execute/names-1.go: Stop using debug/xcoff, which is no longer externally visible. From-SVN: r268084
368 lines
12 KiB
Go
368 lines
12 KiB
Go
// Copyright 2017 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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// +build ignore
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package fmt_test
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import (
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"fmt"
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"io"
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"math"
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"os"
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"strings"
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"time"
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)
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// The Errorf function lets us use formatting features
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// to create descriptive error messages.
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func ExampleErrorf() {
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const name, id = "bueller", 17
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err := fmt.Errorf("user %q (id %d) not found", name, id)
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fmt.Println(err.Error())
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// Output: user "bueller" (id 17) not found
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}
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func ExampleFscanf() {
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var (
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i int
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b bool
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s string
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)
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r := strings.NewReader("5 true gophers")
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n, err := fmt.Fscanf(r, "%d %t %s", &i, &b, &s)
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if err != nil {
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fmt.Fprintf(os.Stderr, "Fscanf: %v\n", err)
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}
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fmt.Println(i, b, s)
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fmt.Println(n)
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// Output:
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// 5 true gophers
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// 3
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}
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func ExampleFscanln() {
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s := `dmr 1771 1.61803398875
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ken 271828 3.14159`
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r := strings.NewReader(s)
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var a string
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var b int
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var c float64
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for {
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n, err := fmt.Fscanln(r, &a, &b, &c)
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if err == io.EOF {
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break
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}
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if err != nil {
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panic(err)
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}
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fmt.Printf("%d: %s, %d, %f\n", n, a, b, c)
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}
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// Output:
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// 3: dmr, 1771, 1.618034
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// 3: ken, 271828, 3.141590
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}
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func ExampleSscanf() {
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var name string
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var age int
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n, err := fmt.Sscanf("Kim is 22 years old", "%s is %d years old", &name, &age)
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if err != nil {
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panic(err)
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}
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fmt.Printf("%d: %s, %d\n", n, name, age)
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// Output:
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// 2: Kim, 22
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}
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func ExamplePrint() {
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const name, age = "Kim", 22
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fmt.Print(name, " is ", age, " years old.\n")
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// It is conventional not to worry about any
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// error returned by Print.
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// Output:
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// Kim is 22 years old.
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}
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func ExamplePrintln() {
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const name, age = "Kim", 22
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fmt.Println(name, "is", age, "years old.")
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// It is conventional not to worry about any
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// error returned by Println.
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// Output:
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// Kim is 22 years old.
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}
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func ExamplePrintf() {
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const name, age = "Kim", 22
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fmt.Printf("%s is %d years old.\n", name, age)
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// It is conventional not to worry about any
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// error returned by Printf.
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// Output:
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// Kim is 22 years old.
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}
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func ExampleSprint() {
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const name, age = "Kim", 22
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s := fmt.Sprint(name, " is ", age, " years old.\n")
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io.WriteString(os.Stdout, s) // Ignoring error for simplicity.
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// Output:
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// Kim is 22 years old.
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}
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func ExampleSprintln() {
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const name, age = "Kim", 22
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s := fmt.Sprintln(name, "is", age, "years old.")
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io.WriteString(os.Stdout, s) // Ignoring error for simplicity.
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// Output:
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// Kim is 22 years old.
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}
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func ExampleSprintf() {
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const name, age = "Kim", 22
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s := fmt.Sprintf("%s is %d years old.\n", name, age)
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io.WriteString(os.Stdout, s) // Ignoring error for simplicity.
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// Output:
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// Kim is 22 years old.
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}
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func ExampleFprint() {
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const name, age = "Kim", 22
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n, err := fmt.Fprint(os.Stdout, name, " is ", age, " years old.\n")
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// The n and err return values from Fprint are
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// those returned by the underlying io.Writer.
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if err != nil {
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fmt.Fprintf(os.Stderr, "Fprint: %v\n", err)
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}
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fmt.Print(n, " bytes written.\n")
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// Output:
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// Kim is 22 years old.
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// 21 bytes written.
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}
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func ExampleFprintln() {
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const name, age = "Kim", 22
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n, err := fmt.Fprintln(os.Stdout, name, "is", age, "years old.")
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// The n and err return values from Fprintln are
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// those returned by the underlying io.Writer.
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if err != nil {
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fmt.Fprintf(os.Stderr, "Fprintln: %v\n", err)
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}
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fmt.Println(n, "bytes written.")
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// Output:
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// Kim is 22 years old.
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// 21 bytes written.
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}
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func ExampleFprintf() {
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const name, age = "Kim", 22
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n, err := fmt.Fprintf(os.Stdout, "%s is %d years old.\n", name, age)
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// The n and err return values from Fprintf are
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// those returned by the underlying io.Writer.
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if err != nil {
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fmt.Fprintf(os.Stderr, "Fprintf: %v\n", err)
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}
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fmt.Printf("%d bytes written.\n", n)
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// Output:
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// Kim is 22 years old.
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// 21 bytes written.
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}
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// Print, Println, and Printf lay out their arguments differently. In this example
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// we can compare their behaviors. Println always adds blanks between the items it
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// prints, while Print adds blanks only between non-string arguments and Printf
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// does exactly what it is told.
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// Sprint, Sprintln, Sprintf, Fprint, Fprintln, and Fprintf behave the same as
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// their corresponding Print, Println, and Printf functions shown here.
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func Example_printers() {
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a, b := 3.0, 4.0
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h := math.Hypot(a, b)
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// Print inserts blanks between arguments when neither is a string.
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// It does not add a newline to the output, so we add one explicitly.
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fmt.Print("The vector (", a, b, ") has length ", h, ".\n")
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// Println always inserts spaces between its arguments,
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// so it cannot be used to produce the same output as Print in this case;
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// its output has extra spaces.
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// Also, Println always adds a newline to the output.
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fmt.Println("The vector (", a, b, ") has length", h, ".")
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// Printf provides complete control but is more complex to use.
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// It does not add a newline to the output, so we add one explicitly
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// at the end of the format specifier string.
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fmt.Printf("The vector (%g %g) has length %g.\n", a, b, h)
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// Output:
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// The vector (3 4) has length 5.
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// The vector ( 3 4 ) has length 5 .
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// The vector (3 4) has length 5.
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}
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// These examples demonstrate the basics of printing using a format string. Printf,
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// Sprintf, and Fprintf all take a format string that specifies how to format the
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// subsequent arguments. For example, %d (we call that a 'verb') says to print the
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// corresponding argument, which must be an integer (or something containing an
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// integer, such as a slice of ints) in decimal. The verb %v ('v' for 'value')
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// always formats the argument in its default form, just how Print or Println would
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// show it. The special verb %T ('T' for 'Type') prints the type of the argument
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// rather than its value. The examples are not exhaustive; see the package comment
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// for all the details.
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func Example_formats() {
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// A basic set of examples showing that %v is the default format, in this
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// case decimal for integers, which can be explicitly requested with %d;
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// the output is just what Println generates.
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integer := 23
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// Each of these prints "23" (without the quotes).
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fmt.Println(integer)
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fmt.Printf("%v\n", integer)
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fmt.Printf("%d\n", integer)
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// The special verb %T shows the type of an item rather than its value.
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fmt.Printf("%T %T\n", integer, &integer)
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// Result: int *int
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// Println(x) is the same as Printf("%v\n", x) so we will use only Printf
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// in the following examples. Each one demonstrates how to format values of
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// a particular type, such as integers or strings. We start each format
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// string with %v to show the default output and follow that with one or
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// more custom formats.
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// Booleans print as "true" or "false" with %v or %t.
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truth := true
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fmt.Printf("%v %t\n", truth, truth)
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// Result: true true
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// Integers print as decimals with %v and %d,
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// or in hex with %x, octal with %o, or binary with %b.
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answer := 42
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fmt.Printf("%v %d %x %o %b\n", answer, answer, answer, answer, answer)
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// Result: 42 42 2a 52 101010
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// Floats have multiple formats: %v and %g print a compact representation,
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// while %f prints a decimal point and %e uses exponential notation. The
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// format %6.2f used here shows how to set the width and precision to
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// control the appearance of a floating-point value. In this instance, 6 is
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// the total width of the printed text for the value (note the extra spaces
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// in the output) and 2 is the number of decimal places to show.
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pi := math.Pi
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fmt.Printf("%v %g %.2f (%6.2f) %e\n", pi, pi, pi, pi, pi)
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// Result: 3.141592653589793 3.141592653589793 3.14 ( 3.14) 3.141593e+00
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// Complex numbers format as parenthesized pairs of floats, with an 'i'
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// after the imaginary part.
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point := 110.7 + 22.5i
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fmt.Printf("%v %g %.2f %.2e\n", point, point, point, point)
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// Result: (110.7+22.5i) (110.7+22.5i) (110.70+22.50i) (1.11e+02+2.25e+01i)
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// Runes are integers but when printed with %c show the character with that
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// Unicode value. The %q verb shows them as quoted characters, %U as a
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// hex Unicode code point, and %#U as both a code point and a quoted
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// printable form if the rune is printable.
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smile := '😀'
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fmt.Printf("%v %d %c %q %U %#U\n", smile, smile, smile, smile, smile, smile)
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// Result: 128512 128512 😀 '😀' U+1F600 U+1F600 '😀'
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// Strings are formatted with %v and %s as-is, with %q as quoted strings,
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// and %#q as backquoted strings.
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placeholders := `foo "bar"`
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fmt.Printf("%v %s %q %#q\n", placeholders, placeholders, placeholders, placeholders)
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// Result: foo "bar" foo "bar" "foo \"bar\"" `foo "bar"`
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// Maps formatted with %v show keys and values in their default formats.
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// The %#v form (the # is called a "flag" in this context) shows the map in
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// the Go source format. Maps are printed in a consistent order, sorted
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// by the values of the keys.
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isLegume := map[string]bool{
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"peanut": true,
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"dachshund": false,
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}
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fmt.Printf("%v %#v\n", isLegume, isLegume)
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// Result: map[dachshund:false peanut:true] map[string]bool{"dachshund":false, "peanut":true}
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// Structs formatted with %v show field values in their default formats.
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// The %+v form shows the fields by name, while %#v formats the struct in
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// Go source format.
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person := struct {
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Name string
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Age int
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}{"Kim", 22}
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fmt.Printf("%v %+v %#v\n", person, person, person)
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// Result: {Kim 22} {Name:Kim Age:22} struct { Name string; Age int }{Name:"Kim", Age:22}
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// The default format for a pointer shows the underlying value preceded by
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// an ampersand. The %p verb prints the pointer value in hex. We use a
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// typed nil for the argument to %p here because the value of any non-nil
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// pointer would change from run to run; run the commented-out Printf
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// call yourself to see.
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pointer := &person
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fmt.Printf("%v %p\n", pointer, (*int)(nil))
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// Result: &{Kim 22} 0x0
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// fmt.Printf("%v %p\n", pointer, pointer)
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// Result: &{Kim 22} 0x010203 // See comment above.
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// Arrays and slices are formatted by applying the format to each element.
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greats := [5]string{"Katano", "Kobayashi", "Kurosawa", "Miyazaki", "Ozu"}
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fmt.Printf("%v %q\n", greats, greats)
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// Result: [Katano Kobayashi Kurosawa Miyazaki Ozu] ["Katano" "Kobayashi" "Kurosawa" "Miyazaki" "Ozu"]
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kGreats := greats[:3]
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fmt.Printf("%v %q %#v\n", kGreats, kGreats, kGreats)
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// Result: [Katano Kobayashi Kurosawa] ["Katano" "Kobayashi" "Kurosawa"] []string{"Katano", "Kobayashi", "Kurosawa"}
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// Byte slices are special. Integer verbs like %d print the elements in
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// that format. The %s and %q forms treat the slice like a string. The %x
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// verb has a special form with the space flag that puts a space between
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// the bytes.
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cmd := []byte("a⌘")
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fmt.Printf("%v %d %s %q %x % x\n", cmd, cmd, cmd, cmd, cmd, cmd)
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// Result: [97 226 140 152] [97 226 140 152] a⌘ "a⌘" 61e28c98 61 e2 8c 98
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// Types that implement Stringer are printed the same as strings. Because
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// Stringers return a string, we can print them using a string-specific
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// verb such as %q.
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now := time.Unix(123456789, 0).UTC() // time.Time implements fmt.Stringer.
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fmt.Printf("%v %q\n", now, now)
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// Result: 1973-11-29 21:33:09 +0000 UTC "1973-11-29 21:33:09 +0000 UTC"
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// Output:
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// 23
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// 23
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// 23
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// int *int
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// true true
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// 42 42 2a 52 101010
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// 3.141592653589793 3.141592653589793 3.14 ( 3.14) 3.141593e+00
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// (110.7+22.5i) (110.7+22.5i) (110.70+22.50i) (1.11e+02+2.25e+01i)
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// 128512 128512 😀 '😀' U+1F600 U+1F600 '😀'
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// foo "bar" foo "bar" "foo \"bar\"" `foo "bar"`
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// map[dachshund:false peanut:true] map[string]bool{"dachshund":false, "peanut":true}
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// {Kim 22} {Name:Kim Age:22} struct { Name string; Age int }{Name:"Kim", Age:22}
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// &{Kim 22} 0x0
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// [Katano Kobayashi Kurosawa Miyazaki Ozu] ["Katano" "Kobayashi" "Kurosawa" "Miyazaki" "Ozu"]
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// [Katano Kobayashi Kurosawa] ["Katano" "Kobayashi" "Kurosawa"] []string{"Katano", "Kobayashi", "Kurosawa"}
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// [97 226 140 152] [97 226 140 152] a⌘ "a⌘" 61e28c98 61 e2 8c 98
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// 1973-11-29 21:33:09 +0000 UTC "1973-11-29 21:33:09 +0000 UTC"
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}
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