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string-formatting.go
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string-formatting.go
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package main
import "fmt"
import "os"
type point struct {
x, y int
}
func main() {
// Go offers several printing “verbs” designed to format general Go values. For example, this prints an instance of our point struct.
p := point{1, 2}
fmt.Printf("%v\n", p)
// If the value is a struct, the %+v variant will include the struct’s field names.
fmt.Printf("%+v\n", p)
// The %#v variant prints a Go syntax representation of the value, i.e. the source code snippet that would produce that value.
fmt.Printf("%#v\n", p)
// To print the type of a value, use %T.
fmt.Printf("%T\n", p)
// Formatting booleans is straight-forward.
fmt.Printf("%t\n", true)
// There are many options for formatting integers. Use %d for standard, base-10 formatting.
fmt.Printf("%d\n", 123)
// This prints a binary representation.
fmt.Printf("%b\n", 14)
// This prints the character corresponding to the given integer.
fmt.Printf("%c\n", 33)
// %x provides hex encoding.
fmt.Printf("%x\n", 456)
// There are also several formatting options for floats. For basic decimal formatting use %f.
fmt.Printf("%f\n", 78.9)
// %e and %E format the float in (slightly different versions of) scientific notation.
fmt.Printf("%e\n", 123400000.0)
fmt.Printf("%E\n", 123400000.0)
// For basic string printing use %s.
fmt.Printf("%s\n", "\"string\"")
// To double-quote strings as in Go source, use %q.
fmt.Printf("%q\n", "\"string\"")
// As with integers seen earlier, %x renders the string in base-16, with two output characters per byte of input.
fmt.Printf("%x\n", "hex this")
// To print a representation of a pointer, use %p.
fmt.Printf("%p\n", &p)
// When formatting numbers you will often want to control the width and precision of the resulting figure. To specify the width of an integer, use a number after the % in the verb. By default the result will be right-justified and padded with spaces.
fmt.Printf("|%6d|%6d|\n", 12, 345)
fmt.Printf("|%6.2f|%6.2f|\n", 1.2, 3.45)
// To left-justify, use the - flag.
fmt.Printf("|%-6.2f|%-6.2f|\n", 1.2, 3.45)
// You may also want to control width when formatting strings, especially to ensure that they align in table-like output. For basic right-justified width.
fmt.Printf("|%6s|%6s|\n", "foo", "b")
// To left-justify use the - flag as with numbers.
fmt.Printf("|%-6s|%-6s|\n", "foo", "b")
// So far we’ve seen Printf, which prints the formatted string to os.Stdout. Sprintf formats and returns a string without printing it anywhere.
s := fmt.Sprintf("a %s", "string")
fmt.Println(s)
// You can format+print to io.Writers other than os.Stdout using Fprintf.
fmt.Fprintf(os.Stderr, "an %s\n", "error")
}
// {1 2}
// {x:1 y:2}
// main.point{x:1, y:2}
// main.point
// true
// 123
// 1110
// !
// 1c8
// 78.900000
// 1.234000e+08
// 1.234000E+08
// "string"
// "\"string\""
// 6865782074686973
// 0x42135100
// | 12| 345|
// | 1.20| 3.45|
// |1.20 |3.45 |
// | foo| b|
// |foo |b |
// a string
// an error