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example6.go
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example6.go
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// All material is licensed under the Apache License Version 2.0, January 2004
// http://www.apache.org/licenses/LICENSE-2.0
/*
https://blog.golang.org/strings
Go source code is always UTF-8.
A string holds arbitrary bytes.
A string literal, absent byte-level escapes, always holds valid UTF-8 sequences.
Those sequences represent Unicode code points, called runes.
No guarantee is made in Go that characters in strings are normalized.
----------------------------------------------------------------------------
Multiple runes can represent different characters:
The lower case grave-accented letter à is a character, and it's also a code
point (U+00E0), but it has other representations.
We can use the "combining" grave accent code point, U+0300, and attach it to
the lower case letter a, U+0061, to create the same character à.
In general, a character may be represented by a number of different sequences
of code points (runes), and therefore different sequences of UTF-8 bytes.
*/
// Sample program to show how strings have a UTF-8 encoded byte array.
package main
import (
"fmt"
"unicode/utf8"
)
func main() {
// Declare a string with both chinese and english characters.
s := "世界 means world"
// UTFMax is 4 -- up to 4 bytes per encoded rune.
var buf [utf8.UTFMax]byte
// Iterate over each character in the string.
for i, r := range s {
// Capture the number of bytes for this character.
rl := utf8.RuneLen(r)
// Calculate the slice offset to slice the character out.
si := i + rl
// Copy of character from the string to our buffer.
copy(buf[:], s[i:si])
// Display the details.
fmt.Printf("%2d: %q; codepoint: %#6x; encoded bytes: %#v\n", i, r, r, buf[:rl])
}
}