org.jetbrains.kotlin.library.encodings.WobblyTF8.kt Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of kotlin-util-klib Show documentation
Show all versions of kotlin-util-klib Show documentation
Common klib reader and writer
/*
* Copyright 2010-2021 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
@file:Suppress("NOTHING_TO_INLINE")
package org.jetbrains.kotlin.library.encodings
/**
* Implementation of Wobbly Transformation Format 8, a superset of UTF-8
* that encodes surrogate code points if they are not in a pair.
*
* See also https://simonsapin.github.io/wtf-8/
*/
object WobblyTF8 {
fun encode(string: String): ByteArray {
val stringLength = string.length
if (stringLength == 0) return EMPTY_BYTE_ARRAY
val buffer = ByteArray(stringLength * 3) // Allocate for the worse case.
var writtenBytes = 0
var index = 0
while (index < stringLength) {
val char1 = string[index++]
if (char1 < '\u0080') {
// U+0000..U+007F -> 0xxxxxxx
// 7 meaningful bits -> 1 byte
buffer[writtenBytes++] = char1.code
} else if (char1 < '\u0800') {
// U+0080..U+07FF -> 110xxxxx 10xxxxxx
// 11 meaningful bits -> 2 bytes
val codePoint = char1.code
buffer[writtenBytes++] = (codePoint ushr 6) or 0b1100_0000
buffer[writtenBytes++] = (codePoint and 0b0011_1111) or 0b1000_0000
} else {
if (Character.isHighSurrogate(char1) && index < stringLength) {
val char2 = string[index]
if (Character.isLowSurrogate(char2)) {
// a pair of surrogates, encode as in traditional UTF8
// U+D800..U+DBFF + U+DC00..U+DFFF -> 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
// 21 meaningful bits -> 4 bytes
index++
val codePoint = Character.toCodePoint(char1, char2)
buffer[writtenBytes++] = (codePoint ushr 18) or 0b1111_0000
buffer[writtenBytes++] = ((codePoint ushr 12) and 0b0011_1111) or 0b1000_0000
buffer[writtenBytes++] = ((codePoint ushr 6) and 0b0011_1111) or 0b1000_0000
buffer[writtenBytes++] = (codePoint and 0b0011_1111) or 0b1000_0000
continue
}
}
// U+0800..U+FFFF -> 1110xxxx 10xxxxxx 10xxxxxx
// 16 meaningful bits -> 3 bytes
val codePoint = char1.code
buffer[writtenBytes++] = (codePoint ushr 12) or 0b1110_0000
buffer[writtenBytes++] = ((codePoint ushr 6) and 0b0011_1111) or 0b1000_0000
buffer[writtenBytes++] = (codePoint and 0b0011_1111) or 0b1000_0000
}
}
return if (buffer.size == writtenBytes) buffer else buffer.copyOf(writtenBytes)
}
fun decode(array: ByteArray): String {
val arraySize = array.size
if (arraySize == 0) return EMPTY_STRING
val buffer = CharArray(arraySize) // Allocate for the worse case.
var charsWritten = 0
var index = 0
while (index < arraySize) {
val byte1 = array.readByteAsInt(index++)
if (byte1 and 0b1000_0000 == 0) {
// 0xxxxxxx -> U+0000..U+007F
// 1 byte -> 7 meaningful bits
buffer[charsWritten++] = byte1
continue
} else if (byte1 ushr 5 == 0b000_0110) {
// 110xxxxx 10xxxxxx -> U+0080..U+07FF
// 2 bytes -> 11 meaningful bits
if (index < arraySize) {
val byte2 = array.readByteAsInt(index)
if (isValidContinuation(byte2)) {
index++
buffer[charsWritten++] = ((byte1 and 0b0001_1111) shl 6) or (byte2 and 0b0011_1111)
continue
}
}
} else if (byte1 ushr 4 == 0b0000_1110) {
// 1110xxxx 10xxxxxx 10xxxxxx -> U+0800..U+FFFF
// 3 bytes -> 16 meaningful bits
if (index < arraySize) {
val byte2 = array.readByteAsInt(index)
if (isValidContinuation(byte2)) {
index++
if (index < arraySize) {
val byte3 = array.readByteAsInt(index)
if (isValidContinuation(byte3)) {
index++
buffer[charsWritten++] = ((byte1 and 0b0000_1111) shl 12) or
((byte2 and 0b0011_1111) shl 6) or
(byte3 and 0b0011_1111)
continue
}
}
}
}
} else if (byte1 ushr 3 == 0b0001_1110) {
// 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx -> U+D800..U+DBFF + U+DC00..U+DFFF
// 4 bytes -> 21 meaningful bits
if (index < arraySize) {
val byte2 = array.readByteAsInt(index)
if (isValidContinuation(byte2)) {
index++
if (index < arraySize) {
val byte3 = array.readByteAsInt(index)
if (isValidContinuation(byte3)) {
index++
if (index < arraySize) {
val byte4 = array.readByteAsInt(index)
if (isValidContinuation(byte4)) {
index++
val codePoint = ((byte1 and 0b0000_0111) shl 18) or
((byte2 and 0b0011_1111) shl 12) or
((byte3 and 0b0011_1111) shl 6) or
(byte4 and 0b0011_1111)
buffer[charsWritten++] = Character.highSurrogate(codePoint)
buffer[charsWritten++] = Character.lowSurrogate(codePoint)
continue
}
}
}
}
}
}
}
// unexpected end of the byte sequence or unexpected bit pattern
buffer[charsWritten++] = REPLACEMENT_CHAR
}
return if (buffer.size == charsWritten) String(buffer) else String(buffer, 0, charsWritten)
}
private fun ByteArray.readByteAsInt(index: Int): Int = this[index].toInt() and 0b1111_1111
private operator fun ByteArray.set(index: Int, value: Int) {
this[index] = value.toByte()
}
private operator fun CharArray.set(index: Int, value: Int) {
this[index] = value.toChar()
}
private fun isValidContinuation(byteN: Int) = byteN ushr 6 == 0b0000_0010
private val EMPTY_BYTE_ARRAY = byteArrayOf()
private const val EMPTY_STRING = ""
private const val REPLACEMENT_CHAR = '\ufffd'
}