// Copyright 2010 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package utf16 implements encoding and decoding of UTF-16 sequences.
package utf16
// The conditions replacementChar==unicode.ReplacementChar and
// maxRune==unicode.MaxRune are verified in the tests.
// Defining them locally avoids this package depending on package unicode.
const (
replacementChar = '\uFFFD' // Unicode replacement character
maxRune = '\U0010FFFF' // Maximum valid Unicode code point.
)
const (
// 0xd800-0xdc00 encodes the high 10 bits of a pair.
// 0xdc00-0xe000 encodes the low 10 bits of a pair.
// the value is those 20 bits plus 0x10000.
surr1 = 0xd800
surr2 = 0xdc00
surr3 = 0xe000
surrSelf = 0x10000
)
// IsSurrogate reports whether the specified Unicode code point
// can appear in a surrogate pair.
func IsSurrogate(r rune) bool {
return surr1 <= r && r < surr3
}
// DecodeRune returns the UTF-16 decoding of a surrogate pair.
// If the pair is not a valid UTF-16 surrogate pair, DecodeRune returns
// the Unicode replacement code point U+FFFD.
func DecodeRune(r1, r2 rune) rune {
if surr1 <= r1 && r1 < surr2 && surr2 <= r2 && r2 < surr3 {
return (r1-surr1)<<10 | (r2 - surr2) + surrSelf
}
return replacementChar
}
// EncodeRune returns the UTF-16 surrogate pair r1, r2 for the given rune.
// If the rune is not a valid Unicode code point or does not need encoding,
// EncodeRune returns U+FFFD, U+FFFD.
func EncodeRune(r rune) (r1, r2 rune) {
if r < surrSelf || r > maxRune {
return replacementChar, replacementChar
}
r -= surrSelf
return surr1 + (r>>10)&0x3ff, surr2 + r&0x3ff
}
// RuneLen returns the number of 16-bit words in the UTF-16 encoding of the rune.
// It returns -1 if the rune is not a valid value to encode in UTF-16.
func RuneLen(r rune) int {
switch {
case 0 <= r && r < surr1, surr3 <= r && r < surrSelf:
return 1
case surrSelf <= r && r <= maxRune:
return 2
default:
return -1
}
}
// Encode returns the UTF-16 encoding of the Unicode code point sequence s.
func Encode(s []rune) []uint16 {
n := len(s)
for _, v := range s {
if v >= surrSelf {
n++
}
}
a := make([]uint16, n)
n = 0
for _, v := range s {
switch RuneLen(v) {
case 1: // normal rune
a[n] = uint16(v)
n++
case 2: // needs surrogate sequence
r1, r2 := EncodeRune(v)
a[n] = uint16(r1)
a[n+1] = uint16(r2)
n += 2
default:
a[n] = uint16(replacementChar)
n++
}
}
return a[:n]
}
// AppendRune appends the UTF-16 encoding of the Unicode code point r
// to the end of p and returns the extended buffer. If the rune is not
// a valid Unicode code point, it appends the encoding of U+FFFD.
func AppendRune(a []uint16, r rune) []uint16 {
// This function is inlineable for fast handling of ASCII.
switch {
case 0 <= r && r < surr1, surr3 <= r && r < surrSelf:
// normal rune
return append(a, uint16(r))
case surrSelf <= r && r <= maxRune:
// needs surrogate sequence
r1, r2 := EncodeRune(r)
return append(a, uint16(r1), uint16(r2))
}
return append(a, replacementChar)
}
// Decode returns the Unicode code point sequence represented
// by the UTF-16 encoding s.
func Decode(s []uint16) []rune {
// Preallocate capacity to hold up to 64 runes.
// Decode inlines, so the allocation can live on the stack.
buf := make([]rune, 0, 64)
return decode(s, buf)
}
// decode appends to buf the Unicode code point sequence represented
// by the UTF-16 encoding s and return the extended buffer.
func decode(s []uint16, buf []rune) []rune {
for i := 0; i < len(s); i++ {
var ar rune
switch r := s[i]; {
case r < surr1, surr3 <= r:
// normal rune
ar = rune(r)
case surr1 <= r && r < surr2 && i+1 < len(s) &&
surr2 <= s[i+1] && s[i+1] < surr3:
// valid surrogate sequence
ar = DecodeRune(rune(r), rune(s[i+1]))
i++
default:
// invalid surrogate sequence
ar = replacementChar
}
buf = append(buf, ar)
}
return buf
}