4bb34584ad
X-SVN-Rev: 40446
353 lines
14 KiB
C++
353 lines
14 KiB
C++
// © 2016 and later: Unicode, Inc. and others.
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// License & terms of use: http://www.unicode.org/copyright.html
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/*
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*******************************************************************************
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* Copyright (C) 2013-2015, International Business Machines
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* Corporation and others. All Rights Reserved.
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*******************************************************************************
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* collationdatawriter.cpp
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*
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* created on: 2013aug06
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* created by: Markus W. Scherer
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*/
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#include "unicode/utypes.h"
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#if !UCONFIG_NO_COLLATION
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#include "unicode/tblcoll.h"
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#include "unicode/udata.h"
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#include "unicode/uniset.h"
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#include "cmemory.h"
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#include "collationdata.h"
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#include "collationdatabuilder.h"
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#include "collationdatareader.h"
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#include "collationdatawriter.h"
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#include "collationfastlatin.h"
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#include "collationsettings.h"
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#include "collationtailoring.h"
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#include "uassert.h"
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#include "ucmndata.h"
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U_NAMESPACE_BEGIN
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uint8_t *
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RuleBasedCollator::cloneRuleData(int32_t &length, UErrorCode &errorCode) const {
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if(U_FAILURE(errorCode)) { return NULL; }
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LocalMemory<uint8_t> buffer((uint8_t *)uprv_malloc(20000));
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if(buffer.isNull()) {
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errorCode = U_MEMORY_ALLOCATION_ERROR;
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return NULL;
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}
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length = cloneBinary(buffer.getAlias(), 20000, errorCode);
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if(errorCode == U_BUFFER_OVERFLOW_ERROR) {
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if(buffer.allocateInsteadAndCopy(length, 0) == NULL) {
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errorCode = U_MEMORY_ALLOCATION_ERROR;
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return NULL;
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}
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errorCode = U_ZERO_ERROR;
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length = cloneBinary(buffer.getAlias(), length, errorCode);
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}
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if(U_FAILURE(errorCode)) { return NULL; }
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return buffer.orphan();
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}
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int32_t
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RuleBasedCollator::cloneBinary(uint8_t *dest, int32_t capacity, UErrorCode &errorCode) const {
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int32_t indexes[CollationDataReader::IX_TOTAL_SIZE + 1];
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return CollationDataWriter::writeTailoring(
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*tailoring, *settings, indexes, dest, capacity,
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errorCode);
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}
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static const UDataInfo dataInfo = {
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sizeof(UDataInfo),
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0,
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U_IS_BIG_ENDIAN,
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U_CHARSET_FAMILY,
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U_SIZEOF_UCHAR,
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0,
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{ 0x55, 0x43, 0x6f, 0x6c }, // dataFormat="UCol"
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{ 5, 0, 0, 0 }, // formatVersion
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{ 6, 3, 0, 0 } // dataVersion
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};
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int32_t
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CollationDataWriter::writeBase(const CollationData &data, const CollationSettings &settings,
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const void *rootElements, int32_t rootElementsLength,
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int32_t indexes[], uint8_t *dest, int32_t capacity,
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UErrorCode &errorCode) {
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return write(TRUE, NULL,
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data, settings,
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rootElements, rootElementsLength,
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indexes, dest, capacity, errorCode);
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}
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int32_t
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CollationDataWriter::writeTailoring(const CollationTailoring &t, const CollationSettings &settings,
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int32_t indexes[], uint8_t *dest, int32_t capacity,
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UErrorCode &errorCode) {
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return write(FALSE, t.version,
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*t.data, settings,
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NULL, 0,
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indexes, dest, capacity, errorCode);
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}
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int32_t
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CollationDataWriter::write(UBool isBase, const UVersionInfo dataVersion,
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const CollationData &data, const CollationSettings &settings,
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const void *rootElements, int32_t rootElementsLength,
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int32_t indexes[], uint8_t *dest, int32_t capacity,
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UErrorCode &errorCode) {
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if(U_FAILURE(errorCode)) { return 0; }
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if(capacity < 0 || (capacity > 0 && dest == NULL)) {
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errorCode = U_ILLEGAL_ARGUMENT_ERROR;
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return 0;
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}
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// Figure out which data items to write before settling on
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// the indexes length and writing offsets.
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// For any data item, we need to write the start and limit offsets,
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// so the indexes length must be at least index-of-start-offset + 2.
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int32_t indexesLength;
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UBool hasMappings;
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UnicodeSet unsafeBackwardSet;
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const CollationData *baseData = data.base;
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int32_t fastLatinVersion;
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if(data.fastLatinTable != NULL) {
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fastLatinVersion = (int32_t)CollationFastLatin::VERSION << 16;
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} else {
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fastLatinVersion = 0;
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}
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int32_t fastLatinTableLength = 0;
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if(isBase) {
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// For the root collator, we write an even number of indexes
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// so that we start with an 8-aligned offset.
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indexesLength = CollationDataReader::IX_TOTAL_SIZE + 1;
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U_ASSERT(settings.reorderCodesLength == 0);
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hasMappings = TRUE;
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unsafeBackwardSet = *data.unsafeBackwardSet;
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fastLatinTableLength = data.fastLatinTableLength;
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} else if(baseData == NULL) {
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hasMappings = FALSE;
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if(settings.reorderCodesLength == 0) {
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// only options
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indexesLength = CollationDataReader::IX_OPTIONS + 1; // no limit offset here
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} else {
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// only options, reorder codes, and the reorder table
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indexesLength = CollationDataReader::IX_REORDER_TABLE_OFFSET + 2;
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}
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} else {
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hasMappings = TRUE;
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// Tailored mappings, and what else?
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// Check in ascending order of optional tailoring data items.
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indexesLength = CollationDataReader::IX_CE32S_OFFSET + 2;
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if(data.contextsLength != 0) {
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indexesLength = CollationDataReader::IX_CONTEXTS_OFFSET + 2;
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}
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unsafeBackwardSet.addAll(*data.unsafeBackwardSet).removeAll(*baseData->unsafeBackwardSet);
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if(!unsafeBackwardSet.isEmpty()) {
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indexesLength = CollationDataReader::IX_UNSAFE_BWD_OFFSET + 2;
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}
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if(data.fastLatinTable != baseData->fastLatinTable) {
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fastLatinTableLength = data.fastLatinTableLength;
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indexesLength = CollationDataReader::IX_FAST_LATIN_TABLE_OFFSET + 2;
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}
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}
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UVector32 codesAndRanges(errorCode);
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const int32_t *reorderCodes = settings.reorderCodes;
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int32_t reorderCodesLength = settings.reorderCodesLength;
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if(settings.hasReordering() &&
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CollationSettings::reorderTableHasSplitBytes(settings.reorderTable)) {
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// Rebuild the full list of reorder ranges.
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// The list in the settings is truncated for efficiency.
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data.makeReorderRanges(reorderCodes, reorderCodesLength, codesAndRanges, errorCode);
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// Write the codes, then the ranges.
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for(int32_t i = 0; i < reorderCodesLength; ++i) {
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codesAndRanges.insertElementAt(reorderCodes[i], i, errorCode);
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}
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if(U_FAILURE(errorCode)) { return 0; }
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reorderCodes = codesAndRanges.getBuffer();
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reorderCodesLength = codesAndRanges.size();
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}
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int32_t headerSize;
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if(isBase) {
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headerSize = 0; // udata_create() writes the header
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} else {
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DataHeader header;
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header.dataHeader.magic1 = 0xda;
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header.dataHeader.magic2 = 0x27;
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uprv_memcpy(&header.info, &dataInfo, sizeof(UDataInfo));
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uprv_memcpy(header.info.dataVersion, dataVersion, sizeof(UVersionInfo));
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headerSize = (int32_t)sizeof(header);
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U_ASSERT((headerSize & 3) == 0); // multiple of 4 bytes
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if(hasMappings && data.cesLength != 0) {
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// Sum of the sizes of the data items which are
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// not automatically multiples of 8 bytes and which are placed before the CEs.
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int32_t sum = headerSize + (indexesLength + reorderCodesLength) * 4;
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if((sum & 7) != 0) {
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// We need to add padding somewhere so that the 64-bit CEs are 8-aligned.
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// We add to the header size here.
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// Alternatively, we could increment the indexesLength
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// or add a few bytes to the reorderTable.
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headerSize += 4;
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}
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}
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header.dataHeader.headerSize = (uint16_t)headerSize;
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if(headerSize <= capacity) {
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uprv_memcpy(dest, &header, sizeof(header));
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// Write 00 bytes so that the padding is not mistaken for a copyright string.
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uprv_memset(dest + sizeof(header), 0, headerSize - (int32_t)sizeof(header));
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dest += headerSize;
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capacity -= headerSize;
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} else {
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dest = NULL;
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capacity = 0;
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}
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}
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indexes[CollationDataReader::IX_INDEXES_LENGTH] = indexesLength;
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U_ASSERT((settings.options & ~0xffff) == 0);
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indexes[CollationDataReader::IX_OPTIONS] =
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data.numericPrimary | fastLatinVersion | settings.options;
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indexes[CollationDataReader::IX_RESERVED2] = 0;
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indexes[CollationDataReader::IX_RESERVED3] = 0;
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// Byte offsets of data items all start from the start of the indexes.
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// We add the headerSize at the very end.
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int32_t totalSize = indexesLength * 4;
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if(hasMappings && (isBase || data.jamoCE32s != baseData->jamoCE32s)) {
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indexes[CollationDataReader::IX_JAMO_CE32S_START] = static_cast<int32_t>(data.jamoCE32s - data.ce32s);
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} else {
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indexes[CollationDataReader::IX_JAMO_CE32S_START] = -1;
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}
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indexes[CollationDataReader::IX_REORDER_CODES_OFFSET] = totalSize;
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totalSize += reorderCodesLength * 4;
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indexes[CollationDataReader::IX_REORDER_TABLE_OFFSET] = totalSize;
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if(settings.reorderTable != NULL) {
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totalSize += 256;
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}
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indexes[CollationDataReader::IX_TRIE_OFFSET] = totalSize;
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if(hasMappings) {
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UErrorCode errorCode2 = U_ZERO_ERROR;
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int32_t length;
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if(totalSize < capacity) {
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length = utrie2_serialize(data.trie, dest + totalSize,
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capacity - totalSize, &errorCode2);
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} else {
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length = utrie2_serialize(data.trie, NULL, 0, &errorCode2);
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}
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if(U_FAILURE(errorCode2) && errorCode2 != U_BUFFER_OVERFLOW_ERROR) {
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errorCode = errorCode2;
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return 0;
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}
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// The trie size should be a multiple of 8 bytes due to the way
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// compactIndex2(UNewTrie2 *trie) currently works.
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U_ASSERT((length & 7) == 0);
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totalSize += length;
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}
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indexes[CollationDataReader::IX_RESERVED8_OFFSET] = totalSize;
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indexes[CollationDataReader::IX_CES_OFFSET] = totalSize;
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if(hasMappings && data.cesLength != 0) {
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U_ASSERT(((headerSize + totalSize) & 7) == 0);
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totalSize += data.cesLength * 8;
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}
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indexes[CollationDataReader::IX_RESERVED10_OFFSET] = totalSize;
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indexes[CollationDataReader::IX_CE32S_OFFSET] = totalSize;
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if(hasMappings) {
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totalSize += data.ce32sLength * 4;
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}
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indexes[CollationDataReader::IX_ROOT_ELEMENTS_OFFSET] = totalSize;
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totalSize += rootElementsLength * 4;
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indexes[CollationDataReader::IX_CONTEXTS_OFFSET] = totalSize;
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if(hasMappings) {
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totalSize += data.contextsLength * 2;
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}
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indexes[CollationDataReader::IX_UNSAFE_BWD_OFFSET] = totalSize;
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if(hasMappings && !unsafeBackwardSet.isEmpty()) {
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UErrorCode errorCode2 = U_ZERO_ERROR;
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int32_t length;
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if(totalSize < capacity) {
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uint16_t *p = reinterpret_cast<uint16_t *>(dest + totalSize);
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length = unsafeBackwardSet.serialize(
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p, (capacity - totalSize) / 2, errorCode2);
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} else {
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length = unsafeBackwardSet.serialize(NULL, 0, errorCode2);
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}
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if(U_FAILURE(errorCode2) && errorCode2 != U_BUFFER_OVERFLOW_ERROR) {
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errorCode = errorCode2;
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return 0;
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}
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totalSize += length * 2;
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}
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indexes[CollationDataReader::IX_FAST_LATIN_TABLE_OFFSET] = totalSize;
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totalSize += fastLatinTableLength * 2;
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UnicodeString scripts;
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indexes[CollationDataReader::IX_SCRIPTS_OFFSET] = totalSize;
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if(isBase) {
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scripts.append((UChar)data.numScripts);
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scripts.append(reinterpret_cast<const UChar *>(data.scriptsIndex), data.numScripts + 16);
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scripts.append(reinterpret_cast<const UChar *>(data.scriptStarts), data.scriptStartsLength);
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totalSize += scripts.length() * 2;
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}
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indexes[CollationDataReader::IX_COMPRESSIBLE_BYTES_OFFSET] = totalSize;
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if(isBase) {
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totalSize += 256;
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}
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indexes[CollationDataReader::IX_RESERVED18_OFFSET] = totalSize;
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indexes[CollationDataReader::IX_TOTAL_SIZE] = totalSize;
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if(totalSize > capacity) {
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errorCode = U_BUFFER_OVERFLOW_ERROR;
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return headerSize + totalSize;
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}
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uprv_memcpy(dest, indexes, indexesLength * 4);
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copyData(indexes, CollationDataReader::IX_REORDER_CODES_OFFSET, reorderCodes, dest);
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copyData(indexes, CollationDataReader::IX_REORDER_TABLE_OFFSET, settings.reorderTable, dest);
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// The trie has already been serialized into the dest buffer.
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copyData(indexes, CollationDataReader::IX_CES_OFFSET, data.ces, dest);
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copyData(indexes, CollationDataReader::IX_CE32S_OFFSET, data.ce32s, dest);
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copyData(indexes, CollationDataReader::IX_ROOT_ELEMENTS_OFFSET, rootElements, dest);
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copyData(indexes, CollationDataReader::IX_CONTEXTS_OFFSET, data.contexts, dest);
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// The unsafeBackwardSet has already been serialized into the dest buffer.
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copyData(indexes, CollationDataReader::IX_FAST_LATIN_TABLE_OFFSET, data.fastLatinTable, dest);
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copyData(indexes, CollationDataReader::IX_SCRIPTS_OFFSET, scripts.getBuffer(), dest);
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copyData(indexes, CollationDataReader::IX_COMPRESSIBLE_BYTES_OFFSET, data.compressibleBytes, dest);
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return headerSize + totalSize;
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}
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void
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CollationDataWriter::copyData(const int32_t indexes[], int32_t startIndex,
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const void *src, uint8_t *dest) {
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int32_t start = indexes[startIndex];
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int32_t limit = indexes[startIndex + 1];
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if(start < limit) {
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uprv_memcpy(dest + start, src, limit - start);
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}
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}
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U_NAMESPACE_END
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#endif // !UCONFIG_NO_COLLATION
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