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International Component for Unicode for Java (ICU4J) is a mature, widely used Java library
providing Unicode and Globalization support
// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html#License
/*
*******************************************************************************
* Copyright (C) 2009-2014, International Business Machines Corporation and
* others. All Rights Reserved.
*******************************************************************************
*/
package com.ibm.icu.impl;
import java.io.DataOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.nio.ByteBuffer;
/**
* @author aheninger
*
* A read-only Trie2, holding 32 bit data values.
*
* A Trie2 is a highly optimized data structure for mapping from Unicode
* code points (values ranging from 0 to 0x10ffff) to a 16 or 32 bit value.
*
* See class Trie2 for descriptions of the API for accessing the contents of a trie.
*
* The fundamental data access methods are declared final in this class, with
* the intent that applications might gain a little extra performance, when compared
* with calling the same methods via the abstract UTrie2 base class.
*/
public class Trie2_32 extends Trie2 {
/**
* Internal constructor, not for general use.
*/
Trie2_32() {
}
/**
* Create a Trie2 from its serialized form. Inverse of utrie2_serialize().
* The serialized format is identical between ICU4C and ICU4J, so this function
* will work with serialized Trie2s from either.
*
* The serialized Trie2 in the bytes may be in either little or big endian byte order.
* This allows using serialized Tries from ICU4C without needing to consider the
* byte order of the system that created them.
*
* @param bytes a byte buffer to the serialized form of a UTrie2.
* @return An unserialized Trie_32, ready for use.
* @throws IllegalArgumentException if the stream does not contain a serialized Trie2.
* @throws IOException if a read error occurs in the buffer.
* @throws ClassCastException if the bytes contains a serialized Trie2_16
*/
public static Trie2_32 createFromSerialized(ByteBuffer bytes) throws IOException {
return (Trie2_32) Trie2.createFromSerialized(bytes);
}
/**
* Get the value for a code point as stored in the Trie2.
*
* @param codePoint the code point
* @return the value
*/
@Override
public final int get(int codePoint) {
int value;
int ix;
if (codePoint >= 0) {
if (codePoint < 0x0d800 || (codePoint > 0x0dbff && codePoint <= 0x0ffff)) {
// Ordinary BMP code point, excluding leading surrogates.
// BMP uses a single level lookup. BMP index starts at offset 0 in the Trie2 index.
// 32 bit data is stored in the index array itself.
ix = index[codePoint >> UTRIE2_SHIFT_2];
ix = (ix << UTRIE2_INDEX_SHIFT) + (codePoint & UTRIE2_DATA_MASK);
value = data32[ix];
return value;
}
if (codePoint <= 0xffff) {
// Lead Surrogate Code Point. A Separate index section is stored for
// lead surrogate code units and code points.
// The main index has the code unit data.
// For this function, we need the code point data.
// Note: this expression could be refactored for slightly improved efficiency, but
// surrogate code points will be so rare in practice that it's not worth it.
ix = index[UTRIE2_LSCP_INDEX_2_OFFSET + ((codePoint - 0xd800) >> UTRIE2_SHIFT_2)];
ix = (ix << UTRIE2_INDEX_SHIFT) + (codePoint & UTRIE2_DATA_MASK);
value = data32[ix];
return value;
}
if (codePoint < highStart) {
// Supplemental code point, use two-level lookup.
ix = (UTRIE2_INDEX_1_OFFSET - UTRIE2_OMITTED_BMP_INDEX_1_LENGTH) + (codePoint >> UTRIE2_SHIFT_1);
ix = index[ix];
ix += (codePoint >> UTRIE2_SHIFT_2) & UTRIE2_INDEX_2_MASK;
ix = index[ix];
ix = (ix << UTRIE2_INDEX_SHIFT) + (codePoint & UTRIE2_DATA_MASK);
value = data32[ix];
return value;
}
if (codePoint <= 0x10ffff) {
value = data32[highValueIndex];
return value;
}
}
// Fall through. The code point is outside of the legal range of 0..0x10ffff.
return errorValue;
}
/**
* Get a Trie2 value for a UTF-16 code unit.
*
* This function returns the same value as get() if the input
* character is outside of the lead surrogate range
*
* There are two values stored in a Trie2 for inputs in the lead
* surrogate range. This function returns the alternate value,
* while Trie2.get() returns the main value.
*
* @param codeUnit a 16 bit code unit or lead surrogate value.
* @return the value
*/
@Override
public int getFromU16SingleLead(char codeUnit){
int value;
int ix;
ix = index[codeUnit >> UTRIE2_SHIFT_2];
ix = (ix << UTRIE2_INDEX_SHIFT) + (codeUnit & UTRIE2_DATA_MASK);
value = data32[ix];
return value;
}
/**
* Serialize a Trie2_32 onto an OutputStream.
*
* A Trie2 can be serialized multiple times.
* The serialized data is compatible with ICU4C UTrie2 serialization.
* Trie2 serialization is unrelated to Java object serialization.
*
* @param os the stream to which the serialized Trie2 data will be written.
* @return the number of bytes written.
* @throw IOException on an error writing to the OutputStream.
*/
public int serialize(OutputStream os) throws IOException {
DataOutputStream dos = new DataOutputStream(os);
int bytesWritten = 0;
bytesWritten += serializeHeader(dos);
for (int i=0; i= limit) {
break;
}
if (cp < 0x0d800 || (cp > 0x0dbff && cp <= 0x0ffff)) {
// Ordinary BMP code point, excluding leading surrogates.
// BMP uses a single level lookup. BMP index starts at offset 0 in the Trie2 index.
// 16 bit data is stored in the index array itself.
index2Block = 0;
block = index[cp >> UTRIE2_SHIFT_2] << UTRIE2_INDEX_SHIFT;
} else if (cp < 0xffff) {
// Lead Surrogate Code Point, 0xd800 <= cp < 0xdc00
index2Block = UTRIE2_LSCP_INDEX_2_OFFSET;
block = index[index2Block + ((cp - 0xd800) >> UTRIE2_SHIFT_2)] << UTRIE2_INDEX_SHIFT;
} else if (cp < highStart) {
// Supplemental code point, use two-level lookup.
int ix = (UTRIE2_INDEX_1_OFFSET - UTRIE2_OMITTED_BMP_INDEX_1_LENGTH) + (cp >> UTRIE2_SHIFT_1);
index2Block = index[ix];
block = index[index2Block + ((cp >> UTRIE2_SHIFT_2) & UTRIE2_INDEX_2_MASK)] << UTRIE2_INDEX_SHIFT;
} else {
// Code point above highStart.
if (value == data32[highValueIndex]) {
cp = limit;
}
break;
}
if (index2Block == index2NullOffset) {
if (value != initialValue) {
break;
}
cp += UTRIE2_CP_PER_INDEX_1_ENTRY;
} else if (block == dataNullOffset) {
// The block at dataNullOffset has all values == initialValue.
// Because Trie2 iteration always proceeds in ascending order, we will always
// encounter a null block at its beginning, and can skip over
// a number of code points equal to the length of the block.
if (value != initialValue) {
break;
}
cp += UTRIE2_DATA_BLOCK_LENGTH;
} else {
// Current position refers to an ordinary data block.
// Walk over the data entries, checking the values.
int startIx = block + (cp & UTRIE2_DATA_MASK);
int limitIx = block + UTRIE2_DATA_BLOCK_LENGTH;
for (int ix = startIx; ix limit) {
cp = limit;
}
return cp - 1;
}
}