/* * * (C) Copyright IBM Corp. 1998-2008 - All Rights Reserved * */ #include "LETypes.h" #include "OpenTypeTables.h" #include "ArabicShaping.h" #include "LEGlyphStorage.h" #include "ClassDefinitionTables.h" U_NAMESPACE_BEGIN // This table maps Unicode joining types to // ShapeTypes. const ArabicShaping::ShapeType ArabicShaping::shapeTypes[] = { ArabicShaping::ST_NOSHAPE_NONE, // [U] ArabicShaping::ST_NOSHAPE_DUAL, // [C] ArabicShaping::ST_DUAL, // [D] ArabicShaping::ST_LEFT, // [L] ArabicShaping::ST_RIGHT, // [R] ArabicShaping::ST_TRANSPARENT // [T] }; /* shaping array holds types for Arabic chars between 0610 and 0700 other values are either unshaped, or transparent if a mark or format code, except for format codes 200c (zero-width non-joiner) and 200d (dual-width joiner) which are both unshaped and non_joining or dual-joining, respectively. */ ArabicShaping::ShapeType ArabicShaping::getShapeType(LEUnicode c) { const ClassDefinitionTable *joiningTypes = (const ClassDefinitionTable *) ArabicShaping::shapingTypeTable; le_int32 joiningType = joiningTypes->getGlyphClass(c); if (joiningType >= 0 && joiningType < ArabicShaping::JT_COUNT) { return ArabicShaping::shapeTypes[joiningType]; } return ArabicShaping::ST_NOSHAPE_NONE; } #define isolFeatureTag LE_ISOL_FEATURE_TAG #define initFeatureTag LE_INIT_FEATURE_TAG #define mediFeatureTag LE_MEDI_FEATURE_TAG #define finaFeatureTag LE_FINA_FEATURE_TAG #define ligaFeatureTag LE_LIGA_FEATURE_TAG #define msetFeatureTag LE_MSET_FEATURE_TAG #define markFeatureTag LE_MARK_FEATURE_TAG #define ccmpFeatureTag LE_CCMP_FEATURE_TAG #define rligFeatureTag LE_RLIG_FEATURE_TAG #define caltFeatureTag LE_CALT_FEATURE_TAG #define dligFeatureTag LE_DLIG_FEATURE_TAG #define cswhFeatureTag LE_CSWH_FEATURE_TAG #define cursFeatureTag LE_CURS_FEATURE_TAG #define kernFeatureTag LE_KERN_FEATURE_TAG #define mkmkFeatureTag LE_MKMK_FEATURE_TAG // NOTE: // The isol, fina, init and medi features must be // defined in the above order, and have masks that // are all in the same nibble. #define isolFeatureMask 0x80000000UL #define finaFeatureMask 0x40000000UL #define initFeatureMask 0x20000000UL #define mediFeatureMask 0x10000000UL #define ccmpFeatureMask 0x08000000UL #define rligFeatureMask 0x04000000UL #define caltFeatureMask 0x02000000UL #define ligaFeatureMask 0x01000000UL #define dligFeatureMask 0x00800000UL #define cswhFeatureMask 0x00400000UL #define msetFeatureMask 0x00200000UL #define cursFeatureMask 0x00100000UL #define kernFeatureMask 0x00080000UL #define markFeatureMask 0x00040000UL #define mkmkFeatureMask 0x00020000UL #define NO_FEATURES 0 #define ISOL_FEATURES (isolFeatureMask | ligaFeatureMask | msetFeatureMask | markFeatureMask | ccmpFeatureMask | rligFeatureMask | caltFeatureMask | dligFeatureMask | cswhFeatureMask | cursFeatureMask | kernFeatureMask | mkmkFeatureMask) #define SHAPE_MASK 0xF0000000UL static const FeatureMap featureMap[] = { {ccmpFeatureTag, ccmpFeatureMask}, {isolFeatureTag, isolFeatureMask}, {finaFeatureTag, finaFeatureMask}, {mediFeatureTag, mediFeatureMask}, {initFeatureTag, initFeatureMask}, {rligFeatureTag, rligFeatureMask}, {caltFeatureTag, caltFeatureMask}, {ligaFeatureTag, ligaFeatureMask}, {dligFeatureTag, dligFeatureMask}, {cswhFeatureTag, cswhFeatureMask}, {msetFeatureTag, msetFeatureMask}, {cursFeatureTag, cursFeatureMask}, {kernFeatureTag, kernFeatureMask}, {markFeatureTag, markFeatureMask}, {mkmkFeatureTag, mkmkFeatureMask} }; const FeatureMap *ArabicShaping::getFeatureMap(le_int32 &count) { count = LE_ARRAY_SIZE(featureMap); return featureMap; } void ArabicShaping::adjustTags(le_int32 outIndex, le_int32 shapeOffset, LEGlyphStorage &glyphStorage) { LEErrorCode success = LE_NO_ERROR; FeatureMask featureMask = (FeatureMask) glyphStorage.getAuxData(outIndex, success); FeatureMask shape = featureMask & SHAPE_MASK; shape >>= shapeOffset; glyphStorage.setAuxData(outIndex, ((featureMask & ~SHAPE_MASK) | shape), success); } void ArabicShaping::shape(const LEUnicode *chars, le_int32 offset, le_int32 charCount, le_int32 charMax, le_bool rightToLeft, LEGlyphStorage &glyphStorage) { // iterate in logical order, store tags in visible order // // the effective right char is the most recently encountered // non-transparent char // // four boolean states: // the effective right char shapes // the effective right char causes left shaping // the current char shapes // the current char causes right shaping // // if both cause shaping, then // shaper.shape(errout, 2) (isolate to initial, or final to medial) // shaper.shape(out, 1) (isolate to final) ShapeType rightType = ST_NOSHAPE_NONE, leftType = ST_NOSHAPE_NONE; LEErrorCode success = LE_NO_ERROR; le_int32 i; for (i = offset - 1; i >= 0; i -= 1) { rightType = getShapeType(chars[i]); if (rightType != ST_TRANSPARENT) { break; } } for (i = offset + charCount; i < charMax; i += 1) { leftType = getShapeType(chars[i]); if (leftType != ST_TRANSPARENT) { break; } } // erout is effective right logical index le_int32 erout = -1; le_bool rightShapes = FALSE; le_bool rightCauses = (rightType & MASK_SHAPE_LEFT) != 0; le_int32 in, e, out = 0, dir = 1; if (rightToLeft) { out = charCount - 1; erout = charCount; dir = -1; } for (in = offset, e = offset + charCount; in < e; in += 1, out += dir) { LEUnicode c = chars[in]; ShapeType t = getShapeType(c); if (t == ST_NOSHAPE_NONE) { glyphStorage.setAuxData(out, NO_FEATURES, success); } else { glyphStorage.setAuxData(out, ISOL_FEATURES, success); } if ((t & MASK_TRANSPARENT) != 0) { continue; } le_bool curShapes = (t & MASK_NOSHAPE) == 0; le_bool curCauses = (t & MASK_SHAPE_RIGHT) != 0; if (rightCauses && curCauses) { if (rightShapes) { adjustTags(erout, 2, glyphStorage); } if (curShapes) { adjustTags(out, 1, glyphStorage); } } rightShapes = curShapes; rightCauses = (t & MASK_SHAPE_LEFT) != 0; erout = out; } if (rightShapes && rightCauses && (leftType & MASK_SHAPE_RIGHT) != 0) { adjustTags(erout, 2, glyphStorage); } } U_NAMESPACE_END