/* * %W% %E% * * (C) Copyright IBM Corp. 1998, 1999, 2000, 2001 - All Rights Reserved * */ #include "LETypes.h" #include "LEScripts.h" #include "LEGlyphFilter.h" #include "LayoutEngine.h" #include "OpenTypeLayoutEngine.h" #include "ArabicLayoutEngine.h" #include "ScriptAndLanguageTags.h" #include "GlyphSubstitutionTables.h" #include "GlyphDefinitionTables.h" #include "GlyphPositioningTables.h" #include "GDEFMarkFilter.h" #include "ArabicShaping.h" #include "HebrewShaping.h" U_NAMESPACE_BEGIN class CharSubstitutionFilter : public UMemory, public LEGlyphFilter { private: const LEFontInstance *fFontInstance; CharSubstitutionFilter(const CharSubstitutionFilter &other); // forbid copying of this class CharSubstitutionFilter &operator=(const CharSubstitutionFilter &other); // forbid copying of this class public: CharSubstitutionFilter(const LEFontInstance *fontInstance); le_bool accept(LEGlyphID glyph) const; }; CharSubstitutionFilter::CharSubstitutionFilter(const LEFontInstance *fontInstance) : fFontInstance(fontInstance) { // nothing to do } le_bool CharSubstitutionFilter::accept(LEGlyphID glyph) const { return fFontInstance->canDisplay((LEUnicode) glyph); } const char ArabicOpenTypeLayoutEngine::fgClassID=0; ArabicOpenTypeLayoutEngine::ArabicOpenTypeLayoutEngine(const LEFontInstance *fontInstance, le_int32 scriptCode, le_int32 languageCode, const GlyphSubstitutionTableHeader *gsubTable) : OpenTypeLayoutEngine(fontInstance, scriptCode, languageCode, gsubTable) { // fFeatureOrder = ArabicShaping::getFeatureOrder(); } ArabicOpenTypeLayoutEngine::ArabicOpenTypeLayoutEngine(const LEFontInstance *fontInstance, le_int32 scriptCode, le_int32 languageCode) : OpenTypeLayoutEngine(fontInstance, scriptCode, languageCode) { // fFeatureOrder = ArabicShaping::getFeatureOrder(); } ArabicOpenTypeLayoutEngine::~ArabicOpenTypeLayoutEngine() { // nothing to do } // Input: characters // Output: characters, char indices, tags // Returns: output character count le_int32 ArabicOpenTypeLayoutEngine::characterProcessing(const LEUnicode chars[], le_int32 offset, le_int32 count, le_int32 max, le_bool rightToLeft, LEUnicode *&outChars, le_int32 *&charIndices, const LETag **&featureTags, LEErrorCode &success) { if (LE_FAILURE(success)) { return 0; } if (chars == NULL || offset < 0 || count < 0 || max < 0 || offset >= max || offset + count > max) { success = LE_ILLEGAL_ARGUMENT_ERROR; return 0; } featureTags = LE_NEW_ARRAY(const LETag *, count); if (featureTags == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return 0; } switch (fScriptCode) { case arabScriptCode: { GlyphShaper shaper(featureTags); // NOTE: may not need seperate shaper if always use tags... // NOTE: shaper could allocate the feature tags... ArabicShaping::shape(chars, offset, count, max, rightToLeft, shaper); break; } case hebrScriptCode: HebrewShaping::shape(chars, offset, count, max, rightToLeft, featureTags); break; } return count; } void ArabicOpenTypeLayoutEngine::adjustGlyphPositions(const LEUnicode chars[], le_int32 offset, le_int32 count, le_bool reverse, LEGlyphID glyphs[], le_int32 glyphCount, float positions[], LEErrorCode &success) { if (LE_FAILURE(success)) { return; } if (chars == NULL || glyphs == NULL || positions == NULL || offset < 0 || count < 0) { success = LE_ILLEGAL_ARGUMENT_ERROR; return; } if (fGPOSTable != NULL) { OpenTypeLayoutEngine::adjustGlyphPositions(chars, offset, count, reverse, glyphs, glyphCount, positions, success); } else if (fGDEFTable != NULL) { GDEFMarkFilter filter(fGDEFTable); adjustMarkGlyphs(glyphs, glyphCount, false, &filter, positions, success); } else { GlyphDefinitionTableHeader *gdefTable = (GlyphDefinitionTableHeader *) ArabicShaping::glyphDefinitionTable; GDEFMarkFilter filter(gdefTable); LEGlyphID *tempGlyphs; // FIXME: we could avoid the memory allocation and copying here by // making a clone of the adjustMarkGlyphs method which took characters // directly... tempGlyphs = LE_NEW_ARRAY(LEGlyphID, count); if (tempGlyphs == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return; } for (le_int32 i = 0; i < count; i += 1) { tempGlyphs[i] = (LEGlyphID) chars[offset + i]; } adjustMarkGlyphs(tempGlyphs, count, reverse, &filter, positions, success); LE_DELETE_ARRAY(tempGlyphs); } } UnicodeArabicOpenTypeLayoutEngine::UnicodeArabicOpenTypeLayoutEngine(const LEFontInstance *fontInstance, le_int32 scriptCode, le_int32 languageCode) : ArabicOpenTypeLayoutEngine(fontInstance, scriptCode, languageCode) { switch (scriptCode) { case arabScriptCode: fGSUBTable = (const GlyphSubstitutionTableHeader *) ArabicShaping::glyphSubstitutionTable; fGDEFTable = (const GlyphDefinitionTableHeader *) ArabicShaping::glyphDefinitionTable; break; case hebrScriptCode: fGSUBTable = (const GlyphSubstitutionTableHeader *) HebrewShaping::glyphSubstitutionTable; fGDEFTable = (const GlyphDefinitionTableHeader *) HebrewShaping::glyphDefinitionTable; break; } fSubstitutionFilter = new CharSubstitutionFilter(fontInstance); } UnicodeArabicOpenTypeLayoutEngine::~UnicodeArabicOpenTypeLayoutEngine() { delete fSubstitutionFilter; } // "glyphs", "indices" -> glyphs, indices le_int32 UnicodeArabicOpenTypeLayoutEngine::glyphPostProcessing(LEGlyphID tempGlyphs[], le_int32 tempCharIndices[], le_int32 tempGlyphCount, LEGlyphID *&glyphs, le_int32 *&charIndices, LEErrorCode &success) { if (LE_FAILURE(success)) { return 0; } if (tempGlyphs == NULL || tempCharIndices == NULL ||tempGlyphCount < 0) { success = LE_ILLEGAL_ARGUMENT_ERROR; return 0; } // FIXME: we could avoid the memory allocation and copy if we // made a clone of mapCharsToGlyphs which took the fake glyphs // directly. LEUnicode *tempChars = LE_NEW_ARRAY(LEUnicode, tempGlyphCount); if (tempChars == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return 0; } for (le_int32 i = 0; i < tempGlyphCount; i += 1) { tempChars[i] = (LEUnicode) LE_GET_GLYPH(tempGlyphs[i]); } charIndices = tempCharIndices; ArabicOpenTypeLayoutEngine::mapCharsToGlyphs(tempChars, 0, tempGlyphCount, false, true, glyphs, charIndices, success); LE_DELETE_ARRAY(tempChars); return tempGlyphCount; } void UnicodeArabicOpenTypeLayoutEngine::mapCharsToGlyphs(const LEUnicode chars[], le_int32 offset, le_int32 count, le_bool reverse, le_bool mirror, LEGlyphID *&glyphs, le_int32 *&charIndices, LEErrorCode &success) { if (LE_FAILURE(success)) { return; } if (chars == NULL || offset < 0 || count < 0) { success = LE_ILLEGAL_ARGUMENT_ERROR; return; } le_int32 i, dir, out; out = 0; dir = 1; if (reverse) { out = count - 1; dir = -1; } glyphs = LE_NEW_ARRAY(LEGlyphID, count); if (glyphs == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return; } charIndices = LE_NEW_ARRAY(le_int32, count); if (charIndices == NULL) { LE_DELETE_ARRAY(glyphs); success = LE_MEMORY_ALLOCATION_ERROR; return; } for (i = 0; i < count; i += 1, out += dir) { glyphs[out] = (LEGlyphID) chars[offset + i]; charIndices[out] = i; } } void UnicodeArabicOpenTypeLayoutEngine::adjustGlyphPositions(const LEUnicode chars[], le_int32 offset, le_int32 count, le_bool reverse, LEGlyphID glyphs[], le_int32 glyphCount, float positions[], LEErrorCode &success) { if (LE_FAILURE(success)) { return; } if (chars == NULL || glyphs == NULL || positions == NULL || offset < 0 || count < 0) { success = LE_ILLEGAL_ARGUMENT_ERROR; return; } GDEFMarkFilter filter(fGDEFTable); // FIXME: we could avoid the memory allocation and copying here by // making a clone of the adjustMarkGlyphs method which took characters // directly... LEGlyphID *tempGlyphs = LE_NEW_ARRAY(LEGlyphID, count); if (tempGlyphs == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return; } for (le_int32 i = 0; i < count; i += 1) { tempGlyphs[i] = (LEGlyphID) chars[offset + i]; } adjustMarkGlyphs(tempGlyphs, count, reverse, &filter, positions, success); LE_DELETE_ARRAY(tempGlyphs); } U_NAMESPACE_END