/* * * (C) Copyright IBM Corp. 1998-2004 - All Rights Reserved * */ #include "LETypes.h" #include "MorphTables.h" #include "StateTables.h" #include "MorphStateTables.h" #include "SubtableProcessor.h" #include "StateTableProcessor.h" #include "LigatureSubstProc.h" #include "LEGlyphStorage.h" #include "LESwaps.h" U_NAMESPACE_BEGIN #define ExtendedComplement(m) ((le_int32) (~((le_uint32) (m)))) #define SignBit(m) ((ExtendedComplement(m) >> 1) & (le_int32)(m)) #define SignExtend(v,m) (((v) & SignBit(m))? ((v) | ExtendedComplement(m)): (v)) const char LigatureSubstitutionProcessor::fgClassID=0; LigatureSubstitutionProcessor::LigatureSubstitutionProcessor(const MorphSubtableHeader *morphSubtableHeader) : StateTableProcessor(morphSubtableHeader) { ligatureSubstitutionHeader = (const LigatureSubstitutionHeader *) morphSubtableHeader; ligatureActionTableOffset = SWAPW(ligatureSubstitutionHeader->ligatureActionTableOffset); componentTableOffset = SWAPW(ligatureSubstitutionHeader->componentTableOffset); ligatureTableOffset = SWAPW(ligatureSubstitutionHeader->ligatureTableOffset); entryTable = (const LigatureSubstitutionStateEntry *) ((char *) &stateTableHeader->stHeader + entryTableOffset); } LigatureSubstitutionProcessor::~LigatureSubstitutionProcessor() { } void LigatureSubstitutionProcessor::beginStateTable() { m = -1; } ByteOffset LigatureSubstitutionProcessor::processStateEntry(LEGlyphStorage &glyphStorage, le_int32 &currGlyph, EntryTableIndex index) { const LigatureSubstitutionStateEntry *entry = &entryTable[index]; ByteOffset newState = SWAPW(entry->newStateOffset); le_int16 flags = SWAPW(entry->flags); if (flags & lsfSetComponent) { if (++m >= nComponents) { m = 0; } componentStack[m] = currGlyph; } ByteOffset actionOffset = flags & lsfActionOffsetMask; if (actionOffset != 0) { const LigatureActionEntry *ap = (const LigatureActionEntry *) ((char *) &ligatureSubstitutionHeader->stHeader + actionOffset); LigatureActionEntry action; le_int32 offset, i = 0; le_int32 stack[nComponents]; le_int16 mm = -1; do { le_uint32 componentGlyph = componentStack[m--]; action = SWAPL(*ap++); if (m < 0) { m = nComponents - 1; } offset = action & lafComponentOffsetMask; if (offset != 0) { const le_int16 *offsetTable = (const le_int16 *)((char *) &ligatureSubstitutionHeader->stHeader + 2 * SignExtend(offset, lafComponentOffsetMask)); i += SWAPW(offsetTable[LE_GET_GLYPH(glyphStorage[componentGlyph])]); if (action & (lafLast | lafStore)) { const TTGlyphID *ligatureOffset = (const TTGlyphID *) ((char *) &ligatureSubstitutionHeader->stHeader + i); TTGlyphID ligatureGlyph = SWAPW(*ligatureOffset); glyphStorage[componentGlyph] = LE_SET_GLYPH(glyphStorage[componentGlyph], ligatureGlyph); stack[++mm] = componentGlyph; i = 0; } else { glyphStorage[componentGlyph] = LE_SET_GLYPH(glyphStorage[componentGlyph], 0xFFFF); } } } while (!(action & lafLast)); while (mm >= 0) { if (++m >= nComponents) { m = 0; } componentStack[m] = stack[mm--]; } } if (!(flags & lsfDontAdvance)) { // should handle reverse too! currGlyph += 1; } return newState; } void LigatureSubstitutionProcessor::endStateTable() { } U_NAMESPACE_END