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/*
 * Copyright 2014 Google Inc. All rights reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.google.flatbuffers;

import java.nio.ByteBuffer;

import static java.lang.Character.MAX_SURROGATE;
import static java.lang.Character.MIN_SURROGATE;
import static java.lang.Character.MIN_HIGH_SURROGATE;
import static java.lang.Character.MIN_LOW_SURROGATE;
import static java.lang.Character.MIN_SUPPLEMENTARY_CODE_POINT;
import static java.lang.Character.isSurrogatePair;
import static java.lang.Character.toCodePoint;

public abstract class Utf8 {

  /**
   * Returns the number of bytes in the UTF-8-encoded form of {@code sequence}. For a string,
   * this method is equivalent to {@code string.getBytes(UTF_8).length}, but is more efficient in
   * both time and space.
   *
   * @throws IllegalArgumentException if {@code sequence} contains ill-formed UTF-16 (unpaired
   *     surrogates)
   */
  public abstract int encodedLength(CharSequence sequence);

  /**
   * Encodes the given characters to the target {@link ByteBuffer} using UTF-8 encoding.
   *
   * 

Selects an optimal algorithm based on the type of {@link ByteBuffer} (i.e. heap or direct) * and the capabilities of the platform. * * @param in the source string to be encoded * @param out the target buffer to receive the encoded string. */ public abstract void encodeUtf8(CharSequence in, ByteBuffer out); /** * Decodes the given UTF-8 portion of the {@link ByteBuffer} into a {@link String}. * * @throws IllegalArgumentException if the input is not valid UTF-8. */ public abstract String decodeUtf8(ByteBuffer buffer, int offset, int length); private static Utf8 DEFAULT; /** * Get the default UTF-8 processor. * @return the default processor */ public static Utf8 getDefault() { if (DEFAULT == null) { DEFAULT = new Utf8Safe(); } return DEFAULT; } /** * Set the default instance of the UTF-8 processor. * @param instance the new instance to use */ public static void setDefault(Utf8 instance) { DEFAULT = instance; } /** * Encode a Java's CharSequence UTF8 codepoint into a byte array. * @param in CharSequence to be encoded * @param start start position of the first char in the codepoint * @param out byte array of 4 bytes to be filled * @return return the amount of bytes occupied by the codepoint */ public static int encodeUtf8CodePoint(CharSequence in, int start, byte[] out) { // utf8 codepoint needs at least 4 bytes assert out.length >= 4; final int inLength = in.length(); if (start >= inLength) { return 0; } char c = in.charAt(start); if (c < 0x80) { // One byte (0xxx xxxx) out[0] = (byte) c; return 1; } else if (c < 0x800) { // Two bytes (110x xxxx 10xx xxxx) out[0] = (byte) (0xC0 | (c >>> 6)); out[1] = (byte) (0x80 | (0x3F & c)); return 2; } else if (c < MIN_SURROGATE || MAX_SURROGATE < c) { // Three bytes (1110 xxxx 10xx xxxx 10xx xxxx) // Maximum single-char code point is 0xFFFF, 16 bits. out[0] = (byte) (0xE0 | (c >>> 12)); out[1] =(byte) (0x80 | (0x3F & (c >>> 6))); out[2] = (byte) (0x80 | (0x3F & c)); return 3; } else { // Four bytes (1111 xxxx 10xx xxxx 10xx xxxx 10xx xxxx) // Minimum code point represented by a surrogate pair is 0x10000, 17 bits, four UTF-8 // bytes final char low; if (start + 1 == inLength || !isSurrogatePair(c, (low = in.charAt(start+1)))) { throw new UnpairedSurrogateException(start, inLength); } int codePoint = toCodePoint(c, low); out[0] = (byte) ((0xF << 4) | (codePoint >>> 18)); out[1] = (byte) (0x80 | (0x3F & (codePoint >>> 12))); out[2] = (byte) (0x80 | (0x3F & (codePoint >>> 6))); out[3] = (byte) (0x80 | (0x3F & codePoint)); return 4; } } /** * Utility methods for decoding bytes into {@link String}. Callers are responsible for extracting * bytes (possibly using Unsafe methods), and checking remaining bytes. All other UTF-8 validity * checks and codepoint conversion happen in this class. */ static class DecodeUtil { /** * Returns whether this is a single-byte codepoint (i.e., ASCII) with the form '0XXXXXXX'. */ static boolean isOneByte(byte b) { return b >= 0; } /** * Returns whether this is a two-byte codepoint with the form '10XXXXXX'. */ static boolean isTwoBytes(byte b) { return b < (byte) 0xE0; } /** * Returns whether this is a three-byte codepoint with the form '110XXXXX'. */ static boolean isThreeBytes(byte b) { return b < (byte) 0xF0; } static void handleOneByte(byte byte1, char[] resultArr, int resultPos) { resultArr[resultPos] = (char) byte1; } static void handleTwoBytes( byte byte1, byte byte2, char[] resultArr, int resultPos) throws IllegalArgumentException { // Simultaneously checks for illegal trailing-byte in leading position (<= '11000000') and // overlong 2-byte, '11000001'. if (byte1 < (byte) 0xC2) { throw new IllegalArgumentException("Invalid UTF-8: Illegal leading byte in 2 bytes utf"); } if (isNotTrailingByte(byte2)) { throw new IllegalArgumentException("Invalid UTF-8: Illegal trailing byte in 2 bytes utf"); } resultArr[resultPos] = (char) (((byte1 & 0x1F) << 6) | trailingByteValue(byte2)); } static void handleThreeBytes( byte byte1, byte byte2, byte byte3, char[] resultArr, int resultPos) throws IllegalArgumentException { if (isNotTrailingByte(byte2) // overlong? 5 most significant bits must not all be zero || (byte1 == (byte) 0xE0 && byte2 < (byte) 0xA0) // check for illegal surrogate codepoints || (byte1 == (byte) 0xED && byte2 >= (byte) 0xA0) || isNotTrailingByte(byte3)) { throw new IllegalArgumentException("Invalid UTF-8"); } resultArr[resultPos] = (char) (((byte1 & 0x0F) << 12) | (trailingByteValue(byte2) << 6) | trailingByteValue(byte3)); } static void handleFourBytes( byte byte1, byte byte2, byte byte3, byte byte4, char[] resultArr, int resultPos) throws IllegalArgumentException{ if (isNotTrailingByte(byte2) // Check that 1 <= plane <= 16. Tricky optimized form of: // valid 4-byte leading byte? // if (byte1 > (byte) 0xF4 || // overlong? 4 most significant bits must not all be zero // byte1 == (byte) 0xF0 && byte2 < (byte) 0x90 || // codepoint larger than the highest code point (U+10FFFF)? // byte1 == (byte) 0xF4 && byte2 > (byte) 0x8F) || (((byte1 << 28) + (byte2 - (byte) 0x90)) >> 30) != 0 || isNotTrailingByte(byte3) || isNotTrailingByte(byte4)) { throw new IllegalArgumentException("Invalid UTF-8"); } int codepoint = ((byte1 & 0x07) << 18) | (trailingByteValue(byte2) << 12) | (trailingByteValue(byte3) << 6) | trailingByteValue(byte4); resultArr[resultPos] = DecodeUtil.highSurrogate(codepoint); resultArr[resultPos + 1] = DecodeUtil.lowSurrogate(codepoint); } /** * Returns whether the byte is not a valid continuation of the form '10XXXXXX'. */ private static boolean isNotTrailingByte(byte b) { return b > (byte) 0xBF; } /** * Returns the actual value of the trailing byte (removes the prefix '10') for composition. */ private static int trailingByteValue(byte b) { return b & 0x3F; } private static char highSurrogate(int codePoint) { return (char) ((MIN_HIGH_SURROGATE - (MIN_SUPPLEMENTARY_CODE_POINT >>> 10)) + (codePoint >>> 10)); } private static char lowSurrogate(int codePoint) { return (char) (MIN_LOW_SURROGATE + (codePoint & 0x3ff)); } } // These UTF-8 handling methods are copied from Guava's Utf8Unsafe class with a modification to throw // a protocol buffer local exception. This exception is then caught in CodedOutputStream so it can // fallback to more lenient behavior. static class UnpairedSurrogateException extends IllegalArgumentException { UnpairedSurrogateException(int index, int length) { super("Unpaired surrogate at index " + index + " of " + length); } } }





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