/* ******************************************************************************* * Copyright (C) 2012-2015, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * collationdata.cpp * * created on: 2012jul28 * created by: Markus W. Scherer */ #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "unicode/ucol.h" #include "unicode/udata.h" #include "unicode/uscript.h" #include "cmemory.h" #include "collation.h" #include "collationdata.h" #include "uassert.h" #include "utrie2.h" #include "uvectr32.h" U_NAMESPACE_BEGIN uint32_t CollationData::getIndirectCE32(uint32_t ce32) const { U_ASSERT(Collation::isSpecialCE32(ce32)); int32_t tag = Collation::tagFromCE32(ce32); if(tag == Collation::DIGIT_TAG) { // Fetch the non-numeric-collation CE32. ce32 = ce32s[Collation::indexFromCE32(ce32)]; } else if(tag == Collation::LEAD_SURROGATE_TAG) { ce32 = Collation::UNASSIGNED_CE32; } else if(tag == Collation::U0000_TAG) { // Fetch the normal ce32 for U+0000. ce32 = ce32s[0]; } return ce32; } uint32_t CollationData::getFinalCE32(uint32_t ce32) const { if(Collation::isSpecialCE32(ce32)) { ce32 = getIndirectCE32(ce32); } return ce32; } int64_t CollationData::getSingleCE(UChar32 c, UErrorCode &errorCode) const { if(U_FAILURE(errorCode)) { return 0; } // Keep parallel with CollationDataBuilder::getSingleCE(). const CollationData *d; uint32_t ce32 = getCE32(c); if(ce32 == Collation::FALLBACK_CE32) { d = base; ce32 = base->getCE32(c); } else { d = this; } while(Collation::isSpecialCE32(ce32)) { switch(Collation::tagFromCE32(ce32)) { case Collation::LATIN_EXPANSION_TAG: case Collation::BUILDER_DATA_TAG: case Collation::PREFIX_TAG: case Collation::CONTRACTION_TAG: case Collation::HANGUL_TAG: case Collation::LEAD_SURROGATE_TAG: errorCode = U_UNSUPPORTED_ERROR; return 0; case Collation::FALLBACK_TAG: case Collation::RESERVED_TAG_3: errorCode = U_INTERNAL_PROGRAM_ERROR; return 0; case Collation::LONG_PRIMARY_TAG: return Collation::ceFromLongPrimaryCE32(ce32); case Collation::LONG_SECONDARY_TAG: return Collation::ceFromLongSecondaryCE32(ce32); case Collation::EXPANSION32_TAG: if(Collation::lengthFromCE32(ce32) == 1) { ce32 = d->ce32s[Collation::indexFromCE32(ce32)]; break; } else { errorCode = U_UNSUPPORTED_ERROR; return 0; } case Collation::EXPANSION_TAG: { if(Collation::lengthFromCE32(ce32) == 1) { return d->ces[Collation::indexFromCE32(ce32)]; } else { errorCode = U_UNSUPPORTED_ERROR; return 0; } } case Collation::DIGIT_TAG: // Fetch the non-numeric-collation CE32 and continue. ce32 = d->ce32s[Collation::indexFromCE32(ce32)]; break; case Collation::U0000_TAG: U_ASSERT(c == 0); // Fetch the normal ce32 for U+0000 and continue. ce32 = d->ce32s[0]; break; case Collation::OFFSET_TAG: return d->getCEFromOffsetCE32(c, ce32); case Collation::IMPLICIT_TAG: return Collation::unassignedCEFromCodePoint(c); } } return Collation::ceFromSimpleCE32(ce32); } uint32_t CollationData::getFirstPrimaryForGroup(int32_t script) const { int32_t index = getScriptIndex(script); return index == 0 ? 0 : (uint32_t)scriptStarts[index] << 16; } uint32_t CollationData::getLastPrimaryForGroup(int32_t script) const { int32_t index = getScriptIndex(script); if(index == 0) { return 0; } uint32_t limit = scriptStarts[index + 1]; return (limit << 16) - 1; } int32_t CollationData::getGroupForPrimary(uint32_t p) const { p >>= 16; if(p < scriptStarts[1] || scriptStarts[scriptStartsLength - 1] <= p) { return -1; } int32_t index = 1; while(p >= scriptStarts[index + 1]) { ++index; } for(int32_t i = 0; i < numScripts; ++i) { if(scriptsIndex[i] == index) { return i; } } for(int32_t i = 0; i < MAX_NUM_SPECIAL_REORDER_CODES; ++i) { if(scriptsIndex[numScripts + i] == index) { return UCOL_REORDER_CODE_FIRST + i; } } return -1; } int32_t CollationData::getScriptIndex(int32_t script) const { if(script < 0) { return 0; } else if(script < numScripts) { return scriptsIndex[script]; } else if(script < UCOL_REORDER_CODE_FIRST) { return 0; } else { script -= UCOL_REORDER_CODE_FIRST; if(script < MAX_NUM_SPECIAL_REORDER_CODES) { return scriptsIndex[numScripts + script]; } else { return 0; } } } int32_t CollationData::getEquivalentScripts(int32_t script, int32_t dest[], int32_t capacity, UErrorCode &errorCode) const { if(U_FAILURE(errorCode)) { return 0; } int32_t index = getScriptIndex(script); if(index == 0) { return 0; } if(script >= UCOL_REORDER_CODE_FIRST) { // Special groups have no aliases. if(capacity > 0) { dest[0] = script; } else { errorCode = U_BUFFER_OVERFLOW_ERROR; } return 1; } int32_t length = 0; for(int32_t i = 0; i < numScripts; ++i) { if(scriptsIndex[i] == index) { if(length < capacity) { dest[length] = i; } ++length; } } if(length > capacity) { errorCode = U_BUFFER_OVERFLOW_ERROR; } return length; } void CollationData::makeReorderRanges(const int32_t *reorder, int32_t length, UVector32 &ranges, UErrorCode &errorCode) const { makeReorderRanges(reorder, length, FALSE, ranges, errorCode); } void CollationData::makeReorderRanges(const int32_t *reorder, int32_t length, UBool latinMustMove, UVector32 &ranges, UErrorCode &errorCode) const { if(U_FAILURE(errorCode)) { return; } ranges.removeAllElements(); if(length == 0 || (length == 1 && reorder[0] == USCRIPT_UNKNOWN)) { return; } // Maps each script-or-group range to a new lead byte. uint8_t table[MAX_NUM_SCRIPT_RANGES]; uprv_memset(table, 0, sizeof(table)); { // Set "don't care" values for reserved ranges. int32_t index = scriptsIndex[ numScripts + REORDER_RESERVED_BEFORE_LATIN - UCOL_REORDER_CODE_FIRST]; if(index != 0) { table[index] = 0xff; } index = scriptsIndex[ numScripts + REORDER_RESERVED_AFTER_LATIN - UCOL_REORDER_CODE_FIRST]; if(index != 0) { table[index] = 0xff; } } // Never reorder special low and high primary lead bytes. U_ASSERT(scriptStartsLength >= 2); U_ASSERT(scriptStarts[0] == 0); int32_t lowStart = scriptStarts[1]; U_ASSERT(lowStart == ((Collation::MERGE_SEPARATOR_BYTE + 1) << 8)); int32_t highLimit = scriptStarts[scriptStartsLength - 1]; U_ASSERT(highLimit == (Collation::TRAIL_WEIGHT_BYTE << 8)); // Get the set of special reorder codes in the input list. // This supports a fixed number of special reorder codes; // it works for data with codes beyond UCOL_REORDER_CODE_LIMIT. uint32_t specials = 0; for(int32_t i = 0; i < length; ++i) { int32_t reorderCode = reorder[i] - UCOL_REORDER_CODE_FIRST; if(0 <= reorderCode && reorderCode < MAX_NUM_SPECIAL_REORDER_CODES) { specials |= (uint32_t)1 << reorderCode; } } // Start the reordering with the special low reorder codes that do not occur in the input. for(int32_t i = 0; i < MAX_NUM_SPECIAL_REORDER_CODES; ++i) { int32_t index = scriptsIndex[numScripts + i]; if(index != 0 && (specials & ((uint32_t)1 << i)) == 0) { lowStart = addLowScriptRange(table, index, lowStart); } } // Skip the reserved range before Latin if Latin is the first script, // so that we do not move it unnecessarily. int32_t skippedReserved = 0; if(specials == 0 && reorder[0] == USCRIPT_LATIN && !latinMustMove) { int32_t index = scriptsIndex[USCRIPT_LATIN]; U_ASSERT(index != 0); int32_t start = scriptStarts[index]; U_ASSERT(lowStart <= start); skippedReserved = start - lowStart; lowStart = start; } // Reorder according to the input scripts, continuing from the bottom of the primary range. int32_t originalLength = length; // length will be decremented if "others" is in the list. UBool hasReorderToEnd = FALSE; for(int32_t i = 0; i < length;) { int32_t script = reorder[i++]; if(script == USCRIPT_UNKNOWN) { // Put the remaining scripts at the top. hasReorderToEnd = TRUE; while(i < length) { script = reorder[--length]; if(script == USCRIPT_UNKNOWN || // Must occur at most once. script == UCOL_REORDER_CODE_DEFAULT) { errorCode = U_ILLEGAL_ARGUMENT_ERROR; return; } int32_t index = getScriptIndex(script); if(index == 0) { continue; } if(table[index] != 0) { // Duplicate or equivalent script. errorCode = U_ILLEGAL_ARGUMENT_ERROR; return; } highLimit = addHighScriptRange(table, index, highLimit); } break; } if(script == UCOL_REORDER_CODE_DEFAULT) { // The default code must be the only one in the list, and that is handled by the caller. // Otherwise it must not be used. errorCode = U_ILLEGAL_ARGUMENT_ERROR; return; } int32_t index = getScriptIndex(script); if(index == 0) { continue; } if(table[index] != 0) { // Duplicate or equivalent script. errorCode = U_ILLEGAL_ARGUMENT_ERROR; return; } lowStart = addLowScriptRange(table, index, lowStart); } // Put all remaining scripts into the middle. for(int32_t i = 1; i < scriptStartsLength - 1; ++i) { int32_t leadByte = table[i]; if(leadByte != 0) { continue; } int32_t start = scriptStarts[i]; if(!hasReorderToEnd && start > lowStart) { // No need to move this script. lowStart = start; } lowStart = addLowScriptRange(table, i, lowStart); } if(lowStart > highLimit) { if((lowStart - (skippedReserved & 0xff00)) <= highLimit) { // Try not skipping the before-Latin reserved range. makeReorderRanges(reorder, originalLength, TRUE, ranges, errorCode); return; } // We need more primary lead bytes than available, despite the reserved ranges. errorCode = U_BUFFER_OVERFLOW_ERROR; return; } // Turn lead bytes into a list of (limit, offset) pairs. // Encode each pair in one list element: // Upper 16 bits = limit, lower 16 = signed lead byte offset. int32_t offset = 0; for(int32_t i = 1;; ++i) { int32_t nextOffset = offset; while(i < scriptStartsLength - 1) { int32_t newLeadByte = table[i]; if(newLeadByte == 0xff) { // "Don't care" lead byte for reserved range, continue with current offset. } else { nextOffset = newLeadByte - (scriptStarts[i] >> 8); if(nextOffset != offset) { break; } } ++i; } if(offset != 0 || i < scriptStartsLength - 1) { ranges.addElement(((int32_t)scriptStarts[i] << 16) | (offset & 0xffff), errorCode); } if(i == scriptStartsLength - 1) { break; } offset = nextOffset; } } int32_t CollationData::addLowScriptRange(uint8_t table[], int32_t index, int32_t lowStart) const { int32_t start = scriptStarts[index]; if((start & 0xff) < (lowStart & 0xff)) { lowStart += 0x100; } table[index] = (uint8_t)(lowStart >> 8); int32_t limit = scriptStarts[index + 1]; lowStart = ((lowStart & 0xff00) + ((limit & 0xff00) - (start & 0xff00))) | (limit & 0xff); return lowStart; } int32_t CollationData::addHighScriptRange(uint8_t table[], int32_t index, int32_t highLimit) const { int32_t limit = scriptStarts[index + 1]; if((limit & 0xff) > (highLimit & 0xff)) { highLimit -= 0x100; } int32_t start = scriptStarts[index]; highLimit = ((highLimit & 0xff00) - ((limit & 0xff00) - (start & 0xff00))) | (start & 0xff); table[index] = (uint8_t)(highLimit >> 8); return highLimit; } U_NAMESPACE_END #endif // !UCONFIG_NO_COLLATION