/* * Implementation of Shaping for the Uniscribe Script Processor (usp10.dll) * * Copyright 2010 CodeWeavers, Aric Stewart * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA * */ #include #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winuser.h" #include "winnls.h" #include "usp10.h" #include "winternl.h" #include "usp10_internal.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(uniscribe); #define FIRST_ARABIC_CHAR 0x0600 #define LAST_ARABIC_CHAR 0x06ff typedef VOID (*ContextualShapingProc)(HDC, ScriptCache*, SCRIPT_ANALYSIS*, WCHAR*, INT, WORD*, INT*, INT, WORD*); static void ContextualShape_Arabic(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Syriac(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Phags_pa(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Sinhala(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Devanagari(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Bengali(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Gurmukhi(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Gujarati(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Oriya(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Tamil(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Telugu(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Kannada(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); static void ContextualShape_Malayalam(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust); typedef VOID (*ShapeCharGlyphPropProc)( HDC , ScriptCache*, SCRIPT_ANALYSIS*, const WCHAR*, const INT, const WORD*, const INT, WORD*, SCRIPT_CHARPROP*, SCRIPT_GLYPHPROP*); static void ShapeCharGlyphProp_Default( HDC hdc, ScriptCache* psc, SCRIPT_ANALYSIS* psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD* pwLogClust, SCRIPT_CHARPROP* pCharProp, SCRIPT_GLYPHPROP* pGlyphProp); static void ShapeCharGlyphProp_Arabic( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP* pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Thai( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_None( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Tibet( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Devanagari( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Bengali( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Gurmukhi( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Gujarati( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Oriya( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Tamil( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Telugu( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Kannada( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); static void ShapeCharGlyphProp_Malayalam( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ); extern const unsigned short indic_syllabic_table[]; extern const unsigned short wine_shaping_table[]; extern const unsigned short wine_shaping_forms[LAST_ARABIC_CHAR - FIRST_ARABIC_CHAR + 1][4]; enum joining_types { jtU, jtT, jtR, jtL, jtD, jtC }; enum joined_forms { Xn=0, Xr, Xl, Xm, /* Syriac Alaph */ Afj, Afn, Afx }; #ifdef WORDS_BIGENDIAN #define GET_BE_WORD(x) (x) #else #define GET_BE_WORD(x) RtlUshortByteSwap(x) #endif /* These are all structures needed for the GSUB table */ #define GSUB_TAG MS_MAKE_TAG('G', 'S', 'U', 'B') #define GSUB_E_NOFEATURE -2 #define GSUB_E_NOGLYPH -1 typedef struct { DWORD version; WORD ScriptList; WORD FeatureList; WORD LookupList; } GSUB_Header; typedef struct { CHAR ScriptTag[4]; WORD Script; } GSUB_ScriptRecord; typedef struct { WORD ScriptCount; GSUB_ScriptRecord ScriptRecord[1]; } GSUB_ScriptList; typedef struct { CHAR LangSysTag[4]; WORD LangSys; } GSUB_LangSysRecord; typedef struct { WORD DefaultLangSys; WORD LangSysCount; GSUB_LangSysRecord LangSysRecord[1]; } GSUB_Script; typedef struct { WORD LookupOrder; /* Reserved */ WORD ReqFeatureIndex; WORD FeatureCount; WORD FeatureIndex[1]; } GSUB_LangSys; typedef struct { CHAR FeatureTag[4]; WORD Feature; } GSUB_FeatureRecord; typedef struct { WORD FeatureCount; GSUB_FeatureRecord FeatureRecord[1]; } GSUB_FeatureList; typedef struct { WORD FeatureParams; /* Reserved */ WORD LookupCount; WORD LookupListIndex[1]; } GSUB_Feature; typedef struct { WORD LookupCount; WORD Lookup[1]; } GSUB_LookupList; typedef struct { WORD LookupType; WORD LookupFlag; WORD SubTableCount; WORD SubTable[1]; } GSUB_LookupTable; typedef struct { WORD CoverageFormat; WORD GlyphCount; WORD GlyphArray[1]; } GSUB_CoverageFormat1; typedef struct { WORD Start; WORD End; WORD StartCoverageIndex; } GSUB_RangeRecord; typedef struct { WORD CoverageFormat; WORD RangeCount; GSUB_RangeRecord RangeRecord[1]; } GSUB_CoverageFormat2; typedef struct { WORD SubstFormat; /* = 1 */ WORD Coverage; WORD DeltaGlyphID; } GSUB_SingleSubstFormat1; typedef struct { WORD SubstFormat; /* = 2 */ WORD Coverage; WORD GlyphCount; WORD Substitute[1]; }GSUB_SingleSubstFormat2; typedef struct { WORD SubstFormat; /* = 1 */ WORD Coverage; WORD SequenceCount; WORD Sequence[1]; }GSUB_MultipleSubstFormat1; typedef struct { WORD GlyphCount; WORD Substitute[1]; }GSUB_Sequence; typedef struct { WORD SubstFormat; /* = 1 */ WORD Coverage; WORD LigSetCount; WORD LigatureSet[1]; }GSUB_LigatureSubstFormat1; typedef struct { WORD LigatureCount; WORD Ligature[1]; }GSUB_LigatureSet; typedef struct{ WORD LigGlyph; WORD CompCount; WORD Component[1]; }GSUB_Ligature; typedef struct{ WORD SequenceIndex; WORD LookupListIndex; }GSUB_SubstLookupRecord; typedef struct{ WORD SubstFormat; /* = 1 */ WORD Coverage; WORD ChainSubRuleSetCount; WORD ChainSubRuleSet[1]; }GSUB_ChainContextSubstFormat1; typedef struct { WORD SubstFormat; /* = 3 */ WORD BacktrackGlyphCount; WORD Coverage[1]; }GSUB_ChainContextSubstFormat3_1; typedef struct{ WORD InputGlyphCount; WORD Coverage[1]; }GSUB_ChainContextSubstFormat3_2; typedef struct{ WORD LookaheadGlyphCount; WORD Coverage[1]; }GSUB_ChainContextSubstFormat3_3; typedef struct{ WORD SubstCount; GSUB_SubstLookupRecord SubstLookupRecord[1]; }GSUB_ChainContextSubstFormat3_4; typedef struct { WORD SubstFormat; /* = 1 */ WORD Coverage; WORD AlternateSetCount; WORD AlternateSet[1]; } GSUB_AlternateSubstFormat1; typedef struct{ WORD GlyphCount; WORD Alternate[1]; } GSUB_AlternateSet; /* These are all structures needed for the GDEF table */ #define GDEF_TAG MS_MAKE_TAG('G', 'D', 'E', 'F') enum {BaseGlyph=1, LigatureGlyph, MarkGlyph, ComponentGlyph}; typedef struct { DWORD Version; WORD GlyphClassDef; WORD AttachList; WORD LigCaretList; WORD MarkAttachClassDef; } GDEF_Header; typedef struct { WORD ClassFormat; WORD StartGlyph; WORD GlyphCount; WORD ClassValueArray[1]; } GDEF_ClassDefFormat1; typedef struct { WORD Start; WORD End; WORD Class; } GDEF_ClassRangeRecord; typedef struct { WORD ClassFormat; WORD ClassRangeCount; GDEF_ClassRangeRecord ClassRangeRecord[1]; } GDEF_ClassDefFormat2; static INT GSUB_apply_lookup(const GSUB_LookupList* lookup, INT lookup_index, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count); typedef struct tagVowelComponents { WCHAR base; WCHAR parts[3]; } VowelComponents; typedef struct tagConsonantComponents { WCHAR parts[3]; WCHAR output; } ConsonantComponents; typedef void (*second_reorder_function)(LPWSTR pwChar, IndicSyllable *syllable,WORD* pwGlyphs, IndicSyllable* glyph_index, lexical_function lex); /* the orders of joined_forms and contextual_features need to line up */ static const char* contextual_features[] = { "isol", "fina", "init", "medi", /* Syriac Alaph */ "med2", "fin2", "fin3" }; static OPENTYPE_FEATURE_RECORD standard_features[] = { { MS_MAKE_TAG('l','i','g','a'), 1}, { MS_MAKE_TAG('c','l','i','g'), 1}, }; static OPENTYPE_FEATURE_RECORD arabic_features[] = { { MS_MAKE_TAG('r','l','i','g'), 1}, { MS_MAKE_TAG('c','a','l','t'), 1}, { MS_MAKE_TAG('l','i','g','a'), 1}, { MS_MAKE_TAG('d','l','i','g'), 1}, { MS_MAKE_TAG('c','s','w','h'), 1}, { MS_MAKE_TAG('m','s','e','t'), 1}, }; static const char* required_arabic_features[] = { "fina", "init", "medi", "rlig", NULL }; static OPENTYPE_FEATURE_RECORD hebrew_features[] = { { MS_MAKE_TAG('d','l','i','g'), 1}, }; static OPENTYPE_FEATURE_RECORD syriac_features[] = { { MS_MAKE_TAG('r','l','i','g'), 1}, { MS_MAKE_TAG('c','a','l','t'), 1}, { MS_MAKE_TAG('l','i','g','a'), 1}, { MS_MAKE_TAG('d','l','i','g'), 1}, }; static const char* required_syriac_features[] = { "fina", "fin2", "fin3", "init", "medi", "med2", "rlig", NULL }; static OPENTYPE_FEATURE_RECORD sinhala_features[] = { /* Presentation forms */ { MS_MAKE_TAG('b','l','w','s'), 1}, { MS_MAKE_TAG('a','b','v','s'), 1}, { MS_MAKE_TAG('p','s','t','s'), 1}, }; static OPENTYPE_FEATURE_RECORD tibetan_features[] = { { MS_MAKE_TAG('a','b','v','s'), 1}, { MS_MAKE_TAG('b','l','w','s'), 1}, }; static OPENTYPE_FEATURE_RECORD thai_features[] = { { MS_MAKE_TAG('c','c','m','p'), 1}, }; static const char* required_lao_features[] = { "ccmp", NULL }; static const char* required_devanagari_features[] = { "nukt", "akhn", "rphf", "blwf", "half", "vatu", "pres", "abvs", "blws", "psts", "haln", NULL }; static OPENTYPE_FEATURE_RECORD devanagari_features[] = { { MS_MAKE_TAG('p','r','e','s'), 1}, { MS_MAKE_TAG('a','b','v','s'), 1}, { MS_MAKE_TAG('b','l','w','s'), 1}, { MS_MAKE_TAG('p','s','t','s'), 1}, { MS_MAKE_TAG('h','a','l','n'), 1}, { MS_MAKE_TAG('c','a','l','t'), 1}, }; static const char* required_bengali_features[] = { "nukt", "akhn", "rphf", "blwf", "half", "vatu", "pstf", "init", "abvs", "blws", "psts", "haln", NULL }; static const char* required_gurmukhi_features[] = { "nukt", "akhn", "rphf", "blwf", "half", "pstf", "vatu", "cjct", "pres", "abvs", "blws", "psts", "haln", "calt", NULL }; static const char* required_oriya_features[] = { "nukt", "akhn", "rphf", "blwf", "pstf", "cjct", "pres", "abvs", "blws", "psts", "haln", "calt", NULL }; static const char* required_tamil_features[] = { "nukt", "akhn", "rphf", "pref", "half", "pres", "abvs", "blws", "psts", "haln", "calt", NULL }; static const char* required_telugu_features[] = { "nukt", "akhn", "rphf", "pref", "half", "pstf", "cjct", "pres", "abvs", "blws", "psts", "haln", "calt", NULL }; typedef struct ScriptShapeDataTag { TEXTRANGE_PROPERTIES defaultTextRange; const char** requiredFeatures; CHAR otTag[5]; CHAR newOtTag[5]; ContextualShapingProc contextProc; ShapeCharGlyphPropProc charGlyphPropProc; } ScriptShapeData; /* in order of scripts */ static const ScriptShapeData ShapingData[] = { {{ standard_features, 2}, NULL, "", "", NULL, NULL}, {{ standard_features, 2}, NULL, "latn", "", NULL, NULL}, {{ standard_features, 2}, NULL, "latn", "", NULL, NULL}, {{ standard_features, 2}, NULL, "latn", "", NULL, NULL}, {{ standard_features, 2}, NULL, "" , "", NULL, NULL}, {{ standard_features, 2}, NULL, "latn", "", NULL, NULL}, {{ arabic_features, 6}, required_arabic_features, "arab", "", ContextualShape_Arabic, ShapeCharGlyphProp_Arabic}, {{ arabic_features, 6}, required_arabic_features, "arab", "", ContextualShape_Arabic, ShapeCharGlyphProp_Arabic}, {{ hebrew_features, 1}, NULL, "hebr", "", NULL, NULL}, {{ syriac_features, 4}, required_syriac_features, "syrc", "", ContextualShape_Syriac, ShapeCharGlyphProp_None}, {{ arabic_features, 6}, required_arabic_features, "arab", "", ContextualShape_Arabic, ShapeCharGlyphProp_Arabic}, {{ NULL, 0}, NULL, "thaa", "", NULL, ShapeCharGlyphProp_None}, {{ standard_features, 2}, NULL, "grek", "", NULL, NULL}, {{ standard_features, 2}, NULL, "cyrl", "", NULL, NULL}, {{ standard_features, 2}, NULL, "armn", "", NULL, NULL}, {{ standard_features, 2}, NULL, "geor", "", NULL, NULL}, {{ sinhala_features, 3}, NULL, "sinh", "", ContextualShape_Sinhala, NULL}, {{ tibetan_features, 2}, NULL, "tibt", "", NULL, ShapeCharGlyphProp_Tibet}, {{ tibetan_features, 2}, NULL, "tibt", "", NULL, ShapeCharGlyphProp_Tibet}, {{ tibetan_features, 2}, NULL, "phag", "", ContextualShape_Phags_pa, ShapeCharGlyphProp_Thai}, {{ thai_features, 1}, NULL, "thai", "", NULL, ShapeCharGlyphProp_Thai}, {{ thai_features, 1}, NULL, "thai", "", NULL, ShapeCharGlyphProp_Thai}, {{ thai_features, 1}, required_lao_features, "lao", "", NULL, ShapeCharGlyphProp_Thai}, {{ thai_features, 1}, required_lao_features, "lao", "", NULL, ShapeCharGlyphProp_Thai}, {{ devanagari_features, 6}, required_devanagari_features, "deva", "dev2", ContextualShape_Devanagari, ShapeCharGlyphProp_Devanagari}, {{ devanagari_features, 6}, required_devanagari_features, "deva", "dev2", ContextualShape_Devanagari, ShapeCharGlyphProp_Devanagari}, {{ devanagari_features, 6}, required_bengali_features, "beng", "bng2", ContextualShape_Bengali, ShapeCharGlyphProp_Bengali}, {{ devanagari_features, 6}, required_bengali_features, "beng", "bng2", ContextualShape_Bengali, ShapeCharGlyphProp_Bengali}, {{ devanagari_features, 6}, required_bengali_features, "beng", "bng2", ContextualShape_Bengali, ShapeCharGlyphProp_Bengali}, {{ devanagari_features, 6}, required_gurmukhi_features, "guru", "gur2", ContextualShape_Gurmukhi, ShapeCharGlyphProp_Gurmukhi}, {{ devanagari_features, 6}, required_gurmukhi_features, "guru", "gur2", ContextualShape_Gurmukhi, ShapeCharGlyphProp_Gurmukhi}, {{ devanagari_features, 6}, required_devanagari_features, "gujr", "gjr2", ContextualShape_Gujarati, ShapeCharGlyphProp_Gujarati}, {{ devanagari_features, 6}, required_devanagari_features, "gujr", "gjr2", ContextualShape_Gujarati, ShapeCharGlyphProp_Gujarati}, {{ devanagari_features, 6}, required_devanagari_features, "gujr", "gjr2", ContextualShape_Gujarati, ShapeCharGlyphProp_Gujarati}, {{ devanagari_features, 6}, required_oriya_features, "orya", "ory2", ContextualShape_Oriya, ShapeCharGlyphProp_Oriya}, {{ devanagari_features, 6}, required_oriya_features, "orya", "ory2", ContextualShape_Oriya, ShapeCharGlyphProp_Oriya}, {{ devanagari_features, 6}, required_tamil_features, "taml", "tam2", ContextualShape_Tamil, ShapeCharGlyphProp_Tamil}, {{ devanagari_features, 6}, required_tamil_features, "taml", "tam2", ContextualShape_Tamil, ShapeCharGlyphProp_Tamil}, {{ devanagari_features, 6}, required_telugu_features, "telu", "tel2", ContextualShape_Telugu, ShapeCharGlyphProp_Telugu}, {{ devanagari_features, 6}, required_telugu_features, "telu", "tel2", ContextualShape_Telugu, ShapeCharGlyphProp_Telugu}, {{ devanagari_features, 6}, required_telugu_features, "knda", "knd2", ContextualShape_Kannada, ShapeCharGlyphProp_Kannada}, {{ devanagari_features, 6}, required_telugu_features, "knda", "knd2", ContextualShape_Kannada, ShapeCharGlyphProp_Kannada}, {{ devanagari_features, 6}, required_telugu_features, "mlym", "mlm2", ContextualShape_Malayalam, ShapeCharGlyphProp_Malayalam}, {{ devanagari_features, 6}, required_telugu_features, "mlym", "mlm2", ContextualShape_Malayalam, ShapeCharGlyphProp_Malayalam}, }; static INT GSUB_is_glyph_covered(LPCVOID table , UINT glyph) { const GSUB_CoverageFormat1* cf1; cf1 = table; if (GET_BE_WORD(cf1->CoverageFormat) == 1) { int count = GET_BE_WORD(cf1->GlyphCount); int i; TRACE("Coverage Format 1, %i glyphs\n",count); for (i = 0; i < count; i++) if (glyph == GET_BE_WORD(cf1->GlyphArray[i])) return i; return -1; } else if (GET_BE_WORD(cf1->CoverageFormat) == 2) { const GSUB_CoverageFormat2* cf2; int i; int count; cf2 = (const GSUB_CoverageFormat2*)cf1; count = GET_BE_WORD(cf2->RangeCount); TRACE("Coverage Format 2, %i ranges\n",count); for (i = 0; i < count; i++) { if (glyph < GET_BE_WORD(cf2->RangeRecord[i].Start)) return -1; if ((glyph >= GET_BE_WORD(cf2->RangeRecord[i].Start)) && (glyph <= GET_BE_WORD(cf2->RangeRecord[i].End))) { return (GET_BE_WORD(cf2->RangeRecord[i].StartCoverageIndex) + glyph - GET_BE_WORD(cf2->RangeRecord[i].Start)); } } return -1; } else ERR("Unknown CoverageFormat %i\n",GET_BE_WORD(cf1->CoverageFormat)); return -1; } static const GSUB_Script* GSUB_get_script_table( const GSUB_Header* header, const char* tag) { const GSUB_ScriptList *script; const GSUB_Script *deflt = NULL; int i; script = (const GSUB_ScriptList*)((const BYTE*)header + GET_BE_WORD(header->ScriptList)); TRACE("%i scripts in this font\n",GET_BE_WORD(script->ScriptCount)); for (i = 0; i < GET_BE_WORD(script->ScriptCount); i++) { const GSUB_Script *scr; int offset; offset = GET_BE_WORD(script->ScriptRecord[i].Script); scr = (const GSUB_Script*)((const BYTE*)script + offset); if (strncmp(script->ScriptRecord[i].ScriptTag, tag,4)==0) return scr; if (strncmp(script->ScriptRecord[i].ScriptTag, "dflt",4)==0) deflt = scr; } return deflt; } static const GSUB_LangSys* GSUB_get_lang_table( const GSUB_Script* script, const char* tag) { int i; int offset; const GSUB_LangSys *Lang; TRACE("Deflang %x, LangCount %i\n",GET_BE_WORD(script->DefaultLangSys), GET_BE_WORD(script->LangSysCount)); for (i = 0; i < GET_BE_WORD(script->LangSysCount) ; i++) { offset = GET_BE_WORD(script->LangSysRecord[i].LangSys); Lang = (const GSUB_LangSys*)((const BYTE*)script + offset); if ( strncmp(script->LangSysRecord[i].LangSysTag,tag,4)==0) return Lang; } offset = GET_BE_WORD(script->DefaultLangSys); if (offset) { Lang = (const GSUB_LangSys*)((const BYTE*)script + offset); return Lang; } return NULL; } static const GSUB_Feature * GSUB_get_feature(const GSUB_Header *header, const GSUB_LangSys *lang, const char* tag) { int i; const GSUB_FeatureList *feature; feature = (const GSUB_FeatureList*)((const BYTE*)header + GET_BE_WORD(header->FeatureList)); TRACE("%i features\n",GET_BE_WORD(lang->FeatureCount)); for (i = 0; i < GET_BE_WORD(lang->FeatureCount); i++) { int index = GET_BE_WORD(lang->FeatureIndex[i]); if (strncmp(feature->FeatureRecord[index].FeatureTag,tag,4)==0) { const GSUB_Feature *feat; feat = (const GSUB_Feature*)((const BYTE*)feature + GET_BE_WORD(feature->FeatureRecord[index].Feature)); return feat; } } return NULL; } static INT GSUB_apply_SingleSubst(const GSUB_LookupTable *look, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int j; TRACE("Single Substitution Subtable\n"); for (j = 0; j < GET_BE_WORD(look->SubTableCount); j++) { int offset; const GSUB_SingleSubstFormat1 *ssf1; offset = GET_BE_WORD(look->SubTable[j]); ssf1 = (const GSUB_SingleSubstFormat1*)((const BYTE*)look+offset); if (GET_BE_WORD(ssf1->SubstFormat) == 1) { int offset = GET_BE_WORD(ssf1->Coverage); TRACE(" subtype 1, delta %i\n", GET_BE_WORD(ssf1->DeltaGlyphID)); if (GSUB_is_glyph_covered((const BYTE*)ssf1+offset, glyphs[glyph_index]) != -1) { TRACE(" Glyph 0x%x ->",glyphs[glyph_index]); glyphs[glyph_index] = glyphs[glyph_index] + GET_BE_WORD(ssf1->DeltaGlyphID); TRACE(" 0x%x\n",glyphs[glyph_index]); return glyph_index + 1; } } else { const GSUB_SingleSubstFormat2 *ssf2; INT index; INT offset; ssf2 = (const GSUB_SingleSubstFormat2 *)ssf1; offset = GET_BE_WORD(ssf1->Coverage); TRACE(" subtype 2, glyph count %i\n", GET_BE_WORD(ssf2->GlyphCount)); index = GSUB_is_glyph_covered((const BYTE*)ssf2+offset, glyphs[glyph_index]); TRACE(" Coverage index %i\n",index); if (index != -1) { if (glyphs[glyph_index] == GET_BE_WORD(ssf2->Substitute[index])) return GSUB_E_NOGLYPH; TRACE(" Glyph is 0x%x ->",glyphs[glyph_index]); glyphs[glyph_index] = GET_BE_WORD(ssf2->Substitute[index]); TRACE("0x%x\n",glyphs[glyph_index]); return glyph_index + 1; } } } return GSUB_E_NOGLYPH; } static INT GSUB_apply_MultipleSubst(const GSUB_LookupTable *look, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int j; TRACE("Multiple Substitution Subtable\n"); for (j = 0; j < GET_BE_WORD(look->SubTableCount); j++) { int offset, index; const GSUB_MultipleSubstFormat1 *msf1; offset = GET_BE_WORD(look->SubTable[j]); msf1 = (const GSUB_MultipleSubstFormat1*)((const BYTE*)look+offset); offset = GET_BE_WORD(msf1->Coverage); index = GSUB_is_glyph_covered((const BYTE*)msf1+offset, glyphs[glyph_index]); if (index != -1) { const GSUB_Sequence *seq; int sub_count; int j; offset = GET_BE_WORD(msf1->Sequence[index]); seq = (const GSUB_Sequence*)((const BYTE*)msf1+offset); sub_count = GET_BE_WORD(seq->GlyphCount); TRACE(" Glyph 0x%x (+%i)->",glyphs[glyph_index],(sub_count-1)); for (j = (*glyph_count)+(sub_count-1); j > glyph_index; j--) glyphs[j] =glyphs[j-(sub_count-1)]; for (j = 0; j < sub_count; j++) if (write_dir < 0) glyphs[glyph_index + (sub_count-1) - j] = GET_BE_WORD(seq->Substitute[j]); else glyphs[glyph_index + j] = GET_BE_WORD(seq->Substitute[j]); *glyph_count = *glyph_count + (sub_count - 1); if (TRACE_ON(uniscribe)) { for (j = 0; j < sub_count; j++) TRACE(" 0x%x",glyphs[glyph_index+j]); TRACE("\n"); } return glyph_index + sub_count; } } return GSUB_E_NOGLYPH; } static INT GSUB_apply_AlternateSubst(const GSUB_LookupTable *look, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int j; TRACE("Alternate Substitution Subtable\n"); for (j = 0; j < GET_BE_WORD(look->SubTableCount); j++) { int offset; const GSUB_AlternateSubstFormat1 *asf1; INT index; offset = GET_BE_WORD(look->SubTable[j]); asf1 = (const GSUB_AlternateSubstFormat1*)((const BYTE*)look+offset); offset = GET_BE_WORD(asf1->Coverage); index = GSUB_is_glyph_covered((const BYTE*)asf1+offset, glyphs[glyph_index]); if (index != -1) { const GSUB_AlternateSet *as; offset = GET_BE_WORD(asf1->AlternateSet[index]); as = (const GSUB_AlternateSet*)((const BYTE*)asf1+offset); FIXME("%i alternates, picking index 0\n",GET_BE_WORD(as->GlyphCount)); if (glyphs[glyph_index] == GET_BE_WORD(as->Alternate[0])) return GSUB_E_NOGLYPH; TRACE(" Glyph 0x%x ->",glyphs[glyph_index]); glyphs[glyph_index] = GET_BE_WORD(as->Alternate[0]); TRACE(" 0x%x\n",glyphs[glyph_index]); return glyph_index + 1; } } return GSUB_E_NOGLYPH; } static INT GSUB_apply_LigatureSubst(const GSUB_LookupTable *look, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int j; TRACE("Ligature Substitution Subtable\n"); for (j = 0; j < GET_BE_WORD(look->SubTableCount); j++) { const GSUB_LigatureSubstFormat1 *lsf1; int offset,index; offset = GET_BE_WORD(look->SubTable[j]); lsf1 = (const GSUB_LigatureSubstFormat1*)((const BYTE*)look+offset); offset = GET_BE_WORD(lsf1->Coverage); index = GSUB_is_glyph_covered((const BYTE*)lsf1+offset, glyphs[glyph_index]); TRACE(" Coverage index %i\n",index); if (index != -1) { const GSUB_LigatureSet *ls; int k, count; offset = GET_BE_WORD(lsf1->LigatureSet[index]); ls = (const GSUB_LigatureSet*)((const BYTE*)lsf1+offset); count = GET_BE_WORD(ls->LigatureCount); TRACE(" LigatureSet has %i members\n",count); for (k = 0; k < count; k++) { const GSUB_Ligature *lig; int CompCount,l,CompIndex; offset = GET_BE_WORD(ls->Ligature[k]); lig = (const GSUB_Ligature*)((const BYTE*)ls+offset); CompCount = GET_BE_WORD(lig->CompCount) - 1; CompIndex = glyph_index+write_dir; for (l = 0; l < CompCount && CompIndex >= 0 && CompIndex < *glyph_count; l++) { int CompGlyph; CompGlyph = GET_BE_WORD(lig->Component[l]); if (CompGlyph != glyphs[CompIndex]) break; CompIndex += write_dir; } if (l == CompCount) { int replaceIdx = glyph_index; if (write_dir < 0) replaceIdx = glyph_index - CompCount; TRACE(" Glyph is 0x%x (+%i) ->",glyphs[glyph_index],CompCount); glyphs[replaceIdx] = GET_BE_WORD(lig->LigGlyph); TRACE("0x%x\n",glyphs[replaceIdx]); if (CompCount > 0) { int j; for (j = replaceIdx + 1; j < *glyph_count; j++) glyphs[j] =glyphs[j+CompCount]; *glyph_count = *glyph_count - CompCount; } return replaceIdx + 1; } } } } return GSUB_E_NOGLYPH; } static INT GSUB_apply_ChainContextSubst(const GSUB_LookupList* lookup, const GSUB_LookupTable *look, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int j; BOOL done = FALSE; TRACE("Chaining Contextual Substitution Subtable\n"); for (j = 0; j < GET_BE_WORD(look->SubTableCount) && !done; j++) { const GSUB_ChainContextSubstFormat1 *ccsf1; int offset; int dirLookahead = write_dir; int dirBacktrack = -1 * write_dir; offset = GET_BE_WORD(look->SubTable[j]); ccsf1 = (const GSUB_ChainContextSubstFormat1*)((const BYTE*)look+offset); if (GET_BE_WORD(ccsf1->SubstFormat) == 1) { FIXME(" TODO: subtype 1 (Simple context glyph substitution)\n"); continue; } else if (GET_BE_WORD(ccsf1->SubstFormat) == 2) { FIXME(" TODO: subtype 2 (Class-based Chaining Context Glyph Substitution)\n"); continue; } else if (GET_BE_WORD(ccsf1->SubstFormat) == 3) { int k; int indexGlyphs; const GSUB_ChainContextSubstFormat3_1 *ccsf3_1; const GSUB_ChainContextSubstFormat3_2 *ccsf3_2; const GSUB_ChainContextSubstFormat3_3 *ccsf3_3; const GSUB_ChainContextSubstFormat3_4 *ccsf3_4; int newIndex = glyph_index; ccsf3_1 = (const GSUB_ChainContextSubstFormat3_1 *)ccsf1; TRACE(" subtype 3 (Coverage-based Chaining Context Glyph Substitution)\n"); for (k = 0; k < GET_BE_WORD(ccsf3_1->BacktrackGlyphCount); k++) { offset = GET_BE_WORD(ccsf3_1->Coverage[k]); if (GSUB_is_glyph_covered((const BYTE*)ccsf3_1+offset, glyphs[glyph_index + (dirBacktrack * (k+1))]) == -1) break; } if (k != GET_BE_WORD(ccsf3_1->BacktrackGlyphCount)) continue; TRACE("Matched Backtrack\n"); ccsf3_2 = (const GSUB_ChainContextSubstFormat3_2 *)(((LPBYTE)ccsf1)+sizeof(GSUB_ChainContextSubstFormat3_1) + (sizeof(WORD) * (GET_BE_WORD(ccsf3_1->BacktrackGlyphCount)-1))); indexGlyphs = GET_BE_WORD(ccsf3_2->InputGlyphCount); for (k = 0; k < indexGlyphs; k++) { offset = GET_BE_WORD(ccsf3_2->Coverage[k]); if (GSUB_is_glyph_covered((const BYTE*)ccsf3_1+offset, glyphs[glyph_index + (write_dir * k)]) == -1) break; } if (k != indexGlyphs) continue; TRACE("Matched IndexGlyphs\n"); ccsf3_3 = (const GSUB_ChainContextSubstFormat3_3 *)(((LPBYTE)ccsf3_2)+sizeof(GSUB_ChainContextSubstFormat3_2) + (sizeof(WORD) * (GET_BE_WORD(ccsf3_2->InputGlyphCount)-1))); for (k = 0; k < GET_BE_WORD(ccsf3_3->LookaheadGlyphCount); k++) { offset = GET_BE_WORD(ccsf3_3->Coverage[k]); if (GSUB_is_glyph_covered((const BYTE*)ccsf3_1+offset, glyphs[glyph_index + (dirLookahead * (indexGlyphs + k))]) == -1) break; } if (k != GET_BE_WORD(ccsf3_3->LookaheadGlyphCount)) continue; TRACE("Matched LookAhead\n"); ccsf3_4 = (const GSUB_ChainContextSubstFormat3_4 *)(((LPBYTE)ccsf3_3)+sizeof(GSUB_ChainContextSubstFormat3_3) + (sizeof(WORD) * (GET_BE_WORD(ccsf3_3->LookaheadGlyphCount)-1))); if (GET_BE_WORD(ccsf3_4->SubstCount)) { for (k = 0; k < GET_BE_WORD(ccsf3_4->SubstCount); k++) { int lookupIndex = GET_BE_WORD(ccsf3_4->SubstLookupRecord[k].LookupListIndex); int SequenceIndex = GET_BE_WORD(ccsf3_4->SubstLookupRecord[k].SequenceIndex) * write_dir; TRACE("SUBST: %i -> %i %i\n",k, SequenceIndex, lookupIndex); newIndex = GSUB_apply_lookup(lookup, lookupIndex, glyphs, glyph_index + SequenceIndex, write_dir, glyph_count); if (newIndex == -1) { ERR("Chain failed to generate a glyph\n"); continue; } } return newIndex; } else return GSUB_E_NOGLYPH; } } return -1; } static INT GSUB_apply_lookup(const GSUB_LookupList* lookup, INT lookup_index, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int offset; const GSUB_LookupTable *look; offset = GET_BE_WORD(lookup->Lookup[lookup_index]); look = (const GSUB_LookupTable*)((const BYTE*)lookup + offset); TRACE("type %i, flag %x, subtables %i\n",GET_BE_WORD(look->LookupType),GET_BE_WORD(look->LookupFlag),GET_BE_WORD(look->SubTableCount)); switch(GET_BE_WORD(look->LookupType)) { case 1: return GSUB_apply_SingleSubst(look, glyphs, glyph_index, write_dir, glyph_count); case 2: return GSUB_apply_MultipleSubst(look, glyphs, glyph_index, write_dir, glyph_count); case 3: return GSUB_apply_AlternateSubst(look, glyphs, glyph_index, write_dir, glyph_count); case 4: return GSUB_apply_LigatureSubst(look, glyphs, glyph_index, write_dir, glyph_count); case 6: return GSUB_apply_ChainContextSubst(lookup, look, glyphs, glyph_index, write_dir, glyph_count); default: FIXME("We do not handle SubType %i\n",GET_BE_WORD(look->LookupType)); } return GSUB_E_NOGLYPH; } static INT GSUB_apply_feature(const GSUB_Header * header, const GSUB_Feature* feature, WORD *glyphs, INT glyph_index, INT write_dir, INT *glyph_count) { int i; int out_index = GSUB_E_NOGLYPH; const GSUB_LookupList *lookup; lookup = (const GSUB_LookupList*)((const BYTE*)header + GET_BE_WORD(header->LookupList)); TRACE("%i lookups\n", GET_BE_WORD(feature->LookupCount)); for (i = 0; i < GET_BE_WORD(feature->LookupCount); i++) { out_index = GSUB_apply_lookup(lookup, GET_BE_WORD(feature->LookupListIndex[i]), glyphs, glyph_index, write_dir, glyph_count); if (out_index != GSUB_E_NOGLYPH) break; } if (out_index == GSUB_E_NOGLYPH) TRACE("lookups found no glyphs\n"); else { int out2; out2 = GSUB_apply_feature(header, feature, glyphs, glyph_index, write_dir, glyph_count); if (out2!=GSUB_E_NOGLYPH) out_index = out2; } return out_index; } static const char* get_opentype_script(HDC hdc, SCRIPT_ANALYSIS *psa, ScriptCache *psc, BOOL tryNew) { UINT charset; if (psc->userScript != 0) { if (tryNew && ShapingData[psa->eScript].newOtTag[0] != 0 && strncmp((char*)&psc->userScript,ShapingData[psa->eScript].otTag,4)==0) return ShapingData[psa->eScript].newOtTag; else return (char*)&psc->userScript; } if (tryNew && ShapingData[psa->eScript].newOtTag[0] != 0) return ShapingData[psa->eScript].newOtTag; if (ShapingData[psa->eScript].otTag[0] != 0) return ShapingData[psa->eScript].otTag; /* * fall back to the font charset */ charset = GetTextCharsetInfo(hdc, NULL, 0x0); switch (charset) { case ANSI_CHARSET: return "latn"; case BALTIC_CHARSET: return "latn"; /* ?? */ case CHINESEBIG5_CHARSET: return "hani"; case EASTEUROPE_CHARSET: return "latn"; /* ?? */ case GB2312_CHARSET: return "hani"; case GREEK_CHARSET: return "grek"; case HANGUL_CHARSET: return "hang"; case RUSSIAN_CHARSET: return "cyrl"; case SHIFTJIS_CHARSET: return "kana"; case TURKISH_CHARSET: return "latn"; /* ?? */ case VIETNAMESE_CHARSET: return "latn"; case JOHAB_CHARSET: return "latn"; /* ?? */ case ARABIC_CHARSET: return "arab"; case HEBREW_CHARSET: return "hebr"; case THAI_CHARSET: return "thai"; default: return "latn"; } } static LPCVOID load_GSUB_feature(HDC hdc, SCRIPT_ANALYSIS *psa, ScriptCache *psc, const char* feat) { const GSUB_Feature *feature; int i; for (i = 0; i < psc->feature_count; i++) if (strncmp(psc->features[i].tag,feat,4)==0) return psc->features[i].feature; feature = NULL; if (psc->GSUB_Table) { const GSUB_Script *script; const GSUB_LangSys *language; int attempt = 2; do { script = GSUB_get_script_table(psc->GSUB_Table, get_opentype_script(hdc,psa,psc,(attempt==2))); attempt--; if (script) { if (psc->userLang != 0) language = GSUB_get_lang_table(script,(char*)&psc->userLang); else language = GSUB_get_lang_table(script, "xxxx"); /* Need to get Lang tag */ if (language) feature = GSUB_get_feature(psc->GSUB_Table, language, feat); } } while(attempt && !feature); /* try in the default (latin) table */ if (!feature) { script = GSUB_get_script_table(psc->GSUB_Table, "latn"); if (script) { language = GSUB_get_lang_table(script, "xxxx"); /* Need to get Lang tag */ if (language) feature = GSUB_get_feature(psc->GSUB_Table, language, feat); } } } TRACE("Feature %s located at %p\n",debugstr_an(feat,4),feature); psc->feature_count++; if (psc->features) psc->features = HeapReAlloc(GetProcessHeap(), 0, psc->features, psc->feature_count * sizeof(LoadedFeature)); else psc->features = HeapAlloc(GetProcessHeap(), 0, psc->feature_count * sizeof(LoadedFeature)); lstrcpynA(psc->features[psc->feature_count - 1].tag, feat, 5); psc->features[psc->feature_count - 1].feature = feature; return feature; } static INT apply_GSUB_feature_to_glyph(HDC hdc, SCRIPT_ANALYSIS *psa, ScriptCache* psc, WORD *glyphs, INT index, INT write_dir, INT* glyph_count, const char* feat) { const GSUB_Feature *feature; feature = load_GSUB_feature(hdc, psa, psc, feat); if (!feature) return GSUB_E_NOFEATURE; TRACE("applying feature %s\n",feat); return GSUB_apply_feature(psc->GSUB_Table, feature, glyphs, index, write_dir, glyph_count); } static VOID *load_gsub_table(HDC hdc) { VOID* GSUB_Table = NULL; int length = GetFontData(hdc, GSUB_TAG , 0, NULL, 0); if (length != GDI_ERROR) { GSUB_Table = HeapAlloc(GetProcessHeap(),0,length); GetFontData(hdc, GSUB_TAG , 0, GSUB_Table, length); TRACE("Loaded GSUB table of %i bytes\n",length); } return GSUB_Table; } INT SHAPE_does_GSUB_feature_apply_to_chars(HDC hdc, SCRIPT_ANALYSIS *psa, ScriptCache* psc, const WCHAR *chars, INT write_dir, INT count, const char* feature) { WORD *glyphs; INT glyph_count = count; INT rc; glyphs = HeapAlloc(GetProcessHeap(),0,sizeof(WORD)*(count*2)); GetGlyphIndicesW(hdc, chars, count, glyphs, 0); rc = apply_GSUB_feature_to_glyph(hdc, psa, psc, glyphs, 0, write_dir, &glyph_count, feature); if (rc > GSUB_E_NOGLYPH) rc = count - glyph_count; else rc = 0; HeapFree(GetProcessHeap(),0,glyphs); return rc; } static WORD GDEF_get_glyph_class(const GDEF_Header *header, WORD glyph) { int offset; WORD class = 0; const GDEF_ClassDefFormat1 *cf1; if (!header) return 0; offset = GET_BE_WORD(header->GlyphClassDef); if (!offset) return 0; cf1 = (GDEF_ClassDefFormat1*)(((BYTE*)header)+offset); if (GET_BE_WORD(cf1->ClassFormat) == 1) { if (glyph >= GET_BE_WORD(cf1->StartGlyph)) { int index = glyph - GET_BE_WORD(cf1->StartGlyph); if (index < GET_BE_WORD(cf1->GlyphCount)) class = GET_BE_WORD(cf1->ClassValueArray[index]); } } else if (GET_BE_WORD(cf1->ClassFormat) == 2) { const GDEF_ClassDefFormat2 *cf2 = (GDEF_ClassDefFormat2*)cf1; int i, top; top = GET_BE_WORD(cf2->ClassRangeCount); for (i = 0; i < top; i++) { if (glyph >= GET_BE_WORD(cf2->ClassRangeRecord[i].Start) && glyph <= GET_BE_WORD(cf2->ClassRangeRecord[i].End)) { class = GET_BE_WORD(cf2->ClassRangeRecord[i].Class); break; } } } else ERR("Unknown Class Format %i\n",GET_BE_WORD(cf1->ClassFormat)); return class; } static VOID *load_gdef_table(HDC hdc) { VOID* GDEF_Table = NULL; int length = GetFontData(hdc, GDEF_TAG , 0, NULL, 0); if (length != GDI_ERROR) { GDEF_Table = HeapAlloc(GetProcessHeap(),0,length); GetFontData(hdc, GDEF_TAG , 0, GDEF_Table, length); TRACE("Loaded GDEF table of %i bytes\n",length); } return GDEF_Table; } static void GDEF_UpdateGlyphProps(HDC hdc, ScriptCache *psc, const WORD *pwGlyphs, const WORD cGlyphs, WORD* pwLogClust, SCRIPT_GLYPHPROP *pGlyphProp) { int i; if (!psc->GDEF_Table) psc->GDEF_Table = load_gdef_table(hdc); for (i = 0; i < cGlyphs; i++) { WORD class; class = GDEF_get_glyph_class(psc->GDEF_Table, pwGlyphs[i]); switch (class) { case 0: case BaseGlyph: pGlyphProp[i].sva.fClusterStart = 1; pGlyphProp[i].sva.fDiacritic = 0; pGlyphProp[i].sva.fZeroWidth = 0; break; case LigatureGlyph: pGlyphProp[i].sva.fClusterStart = 1; pGlyphProp[i].sva.fDiacritic = 0; pGlyphProp[i].sva.fZeroWidth = 0; break; case MarkGlyph: pGlyphProp[i].sva.fClusterStart = 0; pGlyphProp[i].sva.fDiacritic = 1; pGlyphProp[i].sva.fZeroWidth = 1; break; case ComponentGlyph: pGlyphProp[i].sva.fClusterStart = 0; pGlyphProp[i].sva.fDiacritic = 0; pGlyphProp[i].sva.fZeroWidth = 0; break; default: ERR("Unknown glyph class %i\n",class); pGlyphProp[i].sva.fClusterStart = 1; pGlyphProp[i].sva.fDiacritic = 0; pGlyphProp[i].sva.fZeroWidth = 0; } } } static void UpdateClustersFromGlyphProp(const int cGlyphs, const int cChars, WORD* pwLogClust, SCRIPT_GLYPHPROP *pGlyphProp) { int i; for (i = 0; i < cGlyphs; i++) { if (!pGlyphProp[i].sva.fClusterStart) { int j; for (j = 0; j < cChars; j++) { if (pwLogClust[j] == i) { int k = j; while (!pGlyphProp[pwLogClust[k]].sva.fClusterStart && k >= 0 && k 0) target_glyph = nextIndex - (changeCount+1); seeking_glyph = target_glyph; do { if (write_dir > 0) for (i = 0; i < chars; i++) { if (pwLogClust[i] == seeking_glyph) { target_index = i; break; } } else for (i = chars - 1; i >= 0; i--) { if (pwLogClust[i] == seeking_glyph) { target_index = i; break; } } if (target_index == -1) seeking_glyph ++; } while (target_index == -1 && seeking_glyph < chars); if (target_index == -1) { ERR("Unable to find target glyph\n"); return; } if (changeCount < 0) { /* merge glyphs */ for(i = target_index; i < chars && i >= 0; i+=write_dir) { if (pwLogClust[i] == target_glyph) continue; if(pwLogClust[i] == replacing_glyph) pwLogClust[i] = target_glyph; else { changed--; if (changed >= changeCount) { replacing_glyph = pwLogClust[i]; pwLogClust[i] = target_glyph; } else break; } } /* renumber trailing indexes*/ for(i = target_index; i < chars && i >= 0; i+=write_dir) { if (pwLogClust[i] != target_glyph) pwLogClust[i] += changeCount; } } else { for(i = target_index; i < chars && i >= 0; i+=write_dir) pwLogClust[i] += changeCount; } } } static int apply_GSUB_feature(HDC hdc, SCRIPT_ANALYSIS *psa, ScriptCache* psc, WORD *pwOutGlyphs, int write_dir, INT* pcGlyphs, INT cChars, const char* feat, WORD *pwLogClust ) { int i; if (psc->GSUB_Table) { const GSUB_Feature *feature; feature = load_GSUB_feature(hdc, psa, psc, feat); if (!feature) return GSUB_E_NOFEATURE; i = 0; TRACE("applying feature %s\n",debugstr_an(feat,4)); while(i < *pcGlyphs) { INT nextIndex; INT prevCount = *pcGlyphs; nextIndex = GSUB_apply_feature(psc->GSUB_Table, feature, pwOutGlyphs, i, write_dir, pcGlyphs); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, write_dir, cChars, pwLogClust); i = nextIndex; } else i++; } return *pcGlyphs; } return GSUB_E_NOFEATURE; } static inline BOOL get_GSUB_Indic2(SCRIPT_ANALYSIS *psa, ScriptCache *psc) { return(GSUB_get_script_table(psc->GSUB_Table,ShapingData[psa->eScript].newOtTag)!=NULL); } static WCHAR neighbour_char(int i, int delta, const WCHAR* chars, INT cchLen) { if (i + delta < 0) return 0; if ( i+ delta >= cchLen) return 0; i += delta; return chars[i]; } static CHAR neighbour_joining_type(int i, int delta, const CHAR* context_type, INT cchLen, SCRIPT_ANALYSIS *psa) { if (i + delta < 0) { if (psa->fLinkBefore) return jtR; else return jtU; } if ( i+ delta >= cchLen) { if (psa->fLinkAfter) return jtL; else return jtU; } i += delta; if (context_type[i] == jtT) return neighbour_joining_type(i,delta,context_type,cchLen,psa); else return context_type[i]; } static inline BOOL right_join_causing(CHAR joining_type) { return (joining_type == jtL || joining_type == jtD || joining_type == jtC); } static inline BOOL left_join_causing(CHAR joining_type) { return (joining_type == jtR || joining_type == jtD || joining_type == jtC); } static inline BOOL word_break_causing(WCHAR chr) { /* we are working within a string of characters already guareented to be within one script, Syriac, so we do not worry about any character other than the space character outside of that range */ return (chr == 0 || chr == 0x20 ); } /* * ContextualShape_Arabic */ static void ContextualShape_Arabic(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { CHAR *context_type; INT *context_shape; INT dirR, dirL; int i; if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } if (!psa->fLogicalOrder && psa->fRTL) { dirR = 1; dirL = -1; } else { dirR = -1; dirL = 1; } if (!psc->GSUB_Table) psc->GSUB_Table = load_gsub_table(hdc); context_type = HeapAlloc(GetProcessHeap(),0,cChars); context_shape = HeapAlloc(GetProcessHeap(),0,sizeof(INT) * cChars); for (i = 0; i < cChars; i++) context_type[i] = get_table_entry( wine_shaping_table, pwcChars[i] ); for (i = 0; i < cChars; i++) { if (context_type[i] == jtR && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xr; else if (context_type[i] == jtL && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa))) context_shape[i] = Xl; else if (context_type[i] == jtD && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa)) && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xm; else if (context_type[i] == jtD && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xr; else if (context_type[i] == jtD && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa))) context_shape[i] = Xl; else context_shape[i] = Xn; } /* Contextual Shaping */ i = 0; while(i < *pcGlyphs) { BOOL shaped = FALSE; if (psc->GSUB_Table) { INT nextIndex; INT prevCount = *pcGlyphs; nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, i, dirL, pcGlyphs, contextual_features[context_shape[i]]); if (nextIndex > GSUB_E_NOGLYPH) { i = nextIndex; UpdateClusters(nextIndex, *pcGlyphs - prevCount, dirL, cChars, pwLogClust); } shaped = (nextIndex > GSUB_E_NOGLYPH); } if (!shaped) { WORD newGlyph = pwOutGlyphs[i]; if (pwcChars[i] >= FIRST_ARABIC_CHAR && pwcChars[i] <= LAST_ARABIC_CHAR) { /* fall back to presentation form B */ WCHAR context_char = wine_shaping_forms[pwcChars[i] - FIRST_ARABIC_CHAR][context_shape[i]]; if (context_char != pwcChars[i] && GetGlyphIndicesW(hdc, &context_char, 1, &newGlyph, 0) != GDI_ERROR && newGlyph != 0x0000) pwOutGlyphs[i] = newGlyph; } i++; } } HeapFree(GetProcessHeap(),0,context_shape); HeapFree(GetProcessHeap(),0,context_type); } /* * ContextualShape_Syriac */ #define ALAPH 0x710 #define DALATH 0x715 #define RISH 0x72A static void ContextualShape_Syriac(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { CHAR *context_type; INT *context_shape; INT dirR, dirL; int i; if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } if (!psa->fLogicalOrder && psa->fRTL) { dirR = 1; dirL = -1; } else { dirR = -1; dirL = 1; } if (!psc->GSUB_Table) psc->GSUB_Table = load_gsub_table(hdc); if (!psc->GSUB_Table) return; context_type = HeapAlloc(GetProcessHeap(),0,cChars); context_shape = HeapAlloc(GetProcessHeap(),0,sizeof(INT) * cChars); for (i = 0; i < cChars; i++) context_type[i] = get_table_entry( wine_shaping_table, pwcChars[i] ); for (i = 0; i < cChars; i++) { if (pwcChars[i] == ALAPH) { WCHAR rchar = neighbour_char(i,dirR,pwcChars,cChars); if (left_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa)) && word_break_causing(neighbour_char(i,dirL,pwcChars,cChars))) context_shape[i] = Afj; else if ( rchar != DALATH && rchar != RISH && !left_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa)) && word_break_causing(neighbour_char(i,dirL,pwcChars,cChars))) context_shape[i] = Afn; else if ( (rchar == DALATH || rchar == RISH) && word_break_causing(neighbour_char(i,dirL,pwcChars,cChars))) context_shape[i] = Afx; else context_shape[i] = Xn; } else if (context_type[i] == jtR && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xr; else if (context_type[i] == jtL && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa))) context_shape[i] = Xl; else if (context_type[i] == jtD && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa)) && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xm; else if (context_type[i] == jtD && right_join_causing(neighbour_joining_type(i,dirR,context_type,cChars,psa))) context_shape[i] = Xr; else if (context_type[i] == jtD && left_join_causing(neighbour_joining_type(i,dirL,context_type,cChars,psa))) context_shape[i] = Xl; else context_shape[i] = Xn; } /* Contextual Shaping */ i = 0; while(i < *pcGlyphs) { INT nextIndex; INT prevCount = *pcGlyphs; nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, i, dirL, pcGlyphs, contextual_features[context_shape[i]]); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, dirL, cChars, pwLogClust); i = nextIndex; } else i++; } HeapFree(GetProcessHeap(),0,context_shape); HeapFree(GetProcessHeap(),0,context_type); } /* * ContextualShape_Phags_pa */ #define phags_pa_CANDRABINDU 0xA873 #define phags_pa_START 0xA840 #define phags_pa_END 0xA87F static void ContextualShape_Phags_pa(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { INT *context_shape; INT dirR, dirL; int i; if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } if (!psa->fLogicalOrder && psa->fRTL) { dirR = 1; dirL = -1; } else { dirR = -1; dirL = 1; } if (!psc->GSUB_Table) psc->GSUB_Table = load_gsub_table(hdc); if (!psc->GSUB_Table) return; context_shape = HeapAlloc(GetProcessHeap(),0,sizeof(INT) * cChars); for (i = 0; i < cChars; i++) { if (pwcChars[i] >= phags_pa_START && pwcChars[i] <= phags_pa_END) { WCHAR rchar = neighbour_char(i,dirR,pwcChars,cChars); WCHAR lchar = neighbour_char(i,dirL,pwcChars,cChars); BOOL jrchar = (rchar != phags_pa_CANDRABINDU && rchar >= phags_pa_START && rchar <= phags_pa_END); BOOL jlchar = (lchar != phags_pa_CANDRABINDU && lchar >= phags_pa_START && lchar <= phags_pa_END); if (jrchar && jlchar) context_shape[i] = Xm; else if (jrchar) context_shape[i] = Xr; else if (jlchar) context_shape[i] = Xl; else context_shape[i] = Xn; } else context_shape[i] = -1; } /* Contextual Shaping */ i = 0; while(i < *pcGlyphs) { if (context_shape[i] >= 0) { INT nextIndex; INT prevCount = *pcGlyphs; nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, i, dirL, pcGlyphs, contextual_features[context_shape[i]]); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, dirL, cChars, pwLogClust); i = nextIndex; } else i++; } else i++; } HeapFree(GetProcessHeap(),0,context_shape); } static void ReplaceInsertChars(HDC hdc, INT cWalk, INT* pcChars, WCHAR *pwOutChars, const WCHAR *replacements) { int i; /* Replace */ pwOutChars[cWalk] = replacements[0]; cWalk=cWalk+1; /* Insert */ for (i = 1; replacements[i] != 0x0000 && i < 3; i++) { int j; for (j = *pcChars; j > cWalk; j--) pwOutChars[j] = pwOutChars[j-1]; *pcChars= *pcChars+1; pwOutChars[cWalk] = replacements[i]; cWalk = cWalk+1; } } static void DecomposeVowels(HDC hdc, WCHAR *pwOutChars, INT *pcChars, const VowelComponents vowels[], WORD* pwLogClust) { int i; int cWalk; int offset = 0; for (cWalk = 0; cWalk < *pcChars; cWalk++) { for (i = 0; vowels[i].base != 0x0; i++) { if (pwOutChars[cWalk] == vowels[i].base) { int j; int o = 1; ReplaceInsertChars(hdc, cWalk, pcChars, pwOutChars, vowels[i].parts); if (vowels[i].parts[1]) { cWalk++; o++; } if (vowels[i].parts[2]) { cWalk++; o++; } offset += o; for (j = (cWalk - offset) + 1; j < *pcChars - offset; j ++) pwLogClust[j]+=o; break; } } } } static void ComposeConsonants(HDC hdc, WCHAR *pwOutChars, INT *pcChars, const ConsonantComponents consonants[], WORD* pwLogClust) { int i; int offset = 0; int cWalk; for (cWalk = 0; cWalk < *pcChars; cWalk++) { for (i = 0; consonants[i].output!= 0x0; i++) { int j; for (j = 0; j + cWalk < *pcChars && consonants[i].parts[j]!=0x0; j++) if (pwOutChars[cWalk+j] != consonants[i].parts[j]) break; if (consonants[i].parts[j]==0x0) /* matched all */ { int k; j--; pwOutChars[cWalk] = consonants[i].output; for(k = cWalk+1; k < *pcChars - j; k++) pwOutChars[k] = pwOutChars[k+j]; *pcChars = *pcChars - j; for (k = j ; k > 0; k--) pwLogClust[cWalk + k + offset] = pwLogClust[cWalk + offset]; offset += j; for (k = cWalk + j + offset; k < *pcChars + offset; k++) pwLogClust[k]--; break; } } cWalk++; } } static void Reorder_Ra_follows_base(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { if (s->ralf >= 0) { int j; WORD Ra = pwChar[s->start]; WORD H = pwChar[s->start+1]; TRACE("Doing reorder of Ra to %i\n",s->base); for (j = s->start; j < s->base-1; j++) pwChar[j] = pwChar[j+2]; pwChar[s->base-1] = Ra; pwChar[s->base] = H; s->ralf = s->base-1; s->base -= 2; } } static void Reorder_Ra_follows_matra(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { if (s->ralf >= 0) { int j,loc; int stop = (s->blwf >=0)? s->blwf+1 : s->base; WORD Ra = pwChar[s->start]; WORD H = pwChar[s->start+1]; for (loc = s->end; loc > stop; loc--) if (lexical(pwChar[loc]) == lex_Matra_post || lexical(pwChar[loc]) == lex_Matra_below) break; TRACE("Doing reorder of Ra to %i\n",loc); for (j = s->start; j < loc-1; j++) pwChar[j] = pwChar[j+2]; pwChar[loc-1] = Ra; pwChar[loc] = H; s->ralf = loc-1; s->base -= 2; if (s->blwf >= 0) s->blwf -= 2; if (s->pref >= 0) s->pref -= 2; } } static void Reorder_Ra_follows_syllable(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { if (s->ralf >= 0) { int j; WORD Ra = pwChar[s->start]; WORD H = pwChar[s->start+1]; TRACE("Doing reorder of Ra to %i\n",s->end-1); for (j = s->start; j < s->end-1; j++) pwChar[j] = pwChar[j+2]; pwChar[s->end-1] = Ra; pwChar[s->end] = H; s->ralf = s->end-1; s->base -= 2; if (s->blwf >= 0) s->blwf -= 2; if (s->pref >= 0) s->pref -= 2; } } static void Reorder_Matra_precede_base(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { int i; /* reorder Matras */ if (s->end > s->base) { for (i = 1; i <= s->end-s->base; i++) { if (lexical(pwChar[s->base+i]) == lex_Matra_pre) { int j; WCHAR c = pwChar[s->base+i]; TRACE("Doing reorder of %x %x\n",c,pwChar[s->base]); for (j = s->base+i; j > s->base; j--) pwChar[j] = pwChar[j-1]; pwChar[s->base] = c; if (s->ralf >= s->base) s->ralf++; if (s->blwf >= s->base) s->blwf++; if (s->pref >= s->base) s->pref++; s->base ++; } } } } static void Reorder_Matra_precede_syllable(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { int i; /* reorder Matras */ if (s->end > s->base) { for (i = 1; i <= s->end-s->base; i++) { if (lexical(pwChar[s->base+i]) == lex_Matra_pre) { int j; WCHAR c = pwChar[s->base+i]; TRACE("Doing reorder of %x to %i\n",c,s->start); for (j = s->base+i; j > s->start; j--) pwChar[j] = pwChar[j-1]; pwChar[s->start] = c; if (s->ralf >= 0) s->ralf++; if (s->blwf >= 0) s->blwf++; if (s->pref >= 0) s->pref++; s->base ++; } } } } static void SecondReorder_Blwf_follows_matra(LPWSTR pwChar, IndicSyllable *s, WORD *glyphs, IndicSyllable *g, lexical_function lexical) { if (s->blwf >= 0 && g->blwf > g->base) { int j,loc; int g_offset; for (loc = s->end; loc > s->blwf; loc--) if (lexical(pwChar[loc]) == lex_Matra_below || lexical(pwChar[loc]) == lex_Matra_above || lexical(pwChar[loc]) == lex_Matra_post) break; g_offset = (loc - s->blwf) - 1; if (loc != s->blwf) { WORD blwf = glyphs[g->blwf]; TRACE("Doing reorder of Below-base to %i (glyph offset %i)\n",loc,g_offset); /* do not care about the pwChar array anymore, just the glyphs */ for (j = 0; j < g_offset; j++) glyphs[g->blwf + j] = glyphs[g->blwf + j + 1]; glyphs[g->blwf + g_offset] = blwf; } } } static void SecondReorder_Matra_precede_base(LPWSTR pwChar, IndicSyllable *s, WORD *glyphs, IndicSyllable *g, lexical_function lexical) { int i; /* reorder previously moved Matras to correct position*/ for (i = s->start; i < s->base; i++) { if (lexical(pwChar[i]) == lex_Matra_pre) { int j; int g_start = g->start + i - s->start; if (g_start < g->base -1 ) { WCHAR og = glyphs[g_start]; TRACE("Doing reorder of matra from %i to %i\n",g_start,g->base); for (j = g_start; j < g->base-1; j++) glyphs[j] = glyphs[j+1]; glyphs[g->base-1] = og; } } } } static void SecondReorder_Pref_precede_base(LPWSTR pwChar, IndicSyllable *s, WORD *glyphs, IndicSyllable *g, lexical_function lexical) { if (s->pref >= 0 && g->pref > g->base) { int j; WCHAR og = glyphs[g->pref]; TRACE("Doing reorder of pref from %i to %i\n",g->pref,g->base); for (j = g->pref; j > g->base; j--) glyphs[j] = glyphs[j-1]; glyphs[g->base] = og; } } static void Reorder_Like_Sinhala(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; Reorder_Ra_follows_base(pwChar, s, lexical); Reorder_Matra_precede_base(pwChar, s, lexical); } static void Reorder_Like_Devanagari(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; Reorder_Ra_follows_matra(pwChar, s, lexical); Reorder_Matra_precede_syllable(pwChar, s, lexical); } static void Reorder_Like_Bengali(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; Reorder_Ra_follows_base(pwChar, s, lexical); Reorder_Matra_precede_syllable(pwChar, s, lexical); } static void Reorder_Like_Kannada(LPWSTR pwChar, IndicSyllable *s, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; Reorder_Ra_follows_syllable(pwChar, s, lexical); Reorder_Matra_precede_syllable(pwChar, s, lexical); } static void SecondReorder_Like_Telugu(LPWSTR pwChar, IndicSyllable *s, WORD* pwGlyphs, IndicSyllable *g, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); TRACE("Glyphs (%i..%i..%i)\n",g->start,g->base,g->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; SecondReorder_Blwf_follows_matra(pwChar, s, pwGlyphs, g, lexical); } static void SecondReorder_Like_Tamil(LPWSTR pwChar, IndicSyllable *s, WORD* pwGlyphs, IndicSyllable *g, lexical_function lexical) { TRACE("Syllable (%i..%i..%i)\n",s->start,s->base,s->end); TRACE("Glyphs (%i..%i..%i)\n",g->start,g->base,g->end); if (s->start == s->base && s->base == s->end) return; if (lexical(pwChar[s->base]) == lex_Vowel) return; SecondReorder_Matra_precede_base(pwChar, s, pwGlyphs, g, lexical); SecondReorder_Pref_precede_base(pwChar, s, pwGlyphs, g, lexical); } static inline void shift_syllable_glyph_indexs(IndicSyllable *glyph_index, INT index, INT shift) { if (shift == 0) return; if (glyph_index->start > index) glyph_index->start += shift; if (glyph_index->base > index) glyph_index->base+= shift; if (glyph_index->end > index) glyph_index->end+= shift; if (glyph_index->ralf > index) glyph_index->ralf+= shift; if (glyph_index->blwf > index) glyph_index->blwf+= shift; if (glyph_index->pref > index) glyph_index->pref+= shift; } static void Apply_Indic_BasicForm(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwChars, INT cChars, IndicSyllable *syllable, WORD *pwOutGlyphs, INT* pcGlyphs, WORD *pwLogClust, lexical_function lexical, IndicSyllable *glyph_index, const GSUB_Feature *feature ) { int index = glyph_index->start; if (!feature) return; while(index <= glyph_index->end) { INT nextIndex; INT prevCount = *pcGlyphs; nextIndex = GSUB_apply_feature(psc->GSUB_Table, feature, pwOutGlyphs, index, 1, pcGlyphs); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, 1, cChars, pwLogClust); shift_syllable_glyph_indexs(glyph_index,index,*pcGlyphs - prevCount); index = nextIndex; } else index++; } } static inline INT find_consonant_halant(WCHAR* pwChars, INT index, INT end, lexical_function lexical) { int i = 0; while (i + index < end - 1 && !(is_consonant(lexical(pwChars[index+i])) && (lexical(pwChars[index+i+1]) == lex_Halant || (index + i < end - 2 && lexical(pwChars[index+i+1]) == lex_Nukta && lexical(pwChars[index+i+2] == lex_Halant))))) i++; if (index + i <= end-1) return index + i; else return -1; } static void Apply_Indic_PreBase(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwChars, INT cChars, IndicSyllable *syllable, WORD *pwOutGlyphs, INT* pcGlyphs, WORD *pwLogClust, lexical_function lexical, IndicSyllable *glyph_index, const char* feature) { INT index, nextIndex; INT count,g_offset; count = syllable->base - syllable->start; g_offset = 0; index = find_consonant_halant(&pwChars[syllable->start], 0, count, lexical); while (index >= 0 && index + g_offset < (glyph_index->base - glyph_index->start)) { INT prevCount = *pcGlyphs; nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, index+glyph_index->start+g_offset, 1, pcGlyphs, feature); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, 1, cChars, pwLogClust); shift_syllable_glyph_indexs(glyph_index, index + glyph_index->start + g_offset, (*pcGlyphs - prevCount)); g_offset += (*pcGlyphs - prevCount); } index+=2; index = find_consonant_halant(&pwChars[syllable->start], index, count, lexical); } } static void Apply_Indic_Rphf(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwChars, INT cChars, IndicSyllable *syllable, WORD *pwOutGlyphs, INT* pcGlyphs, WORD *pwLogClust, lexical_function lexical, IndicSyllable *glyph_index) { INT nextIndex; INT prevCount = *pcGlyphs; if (syllable->ralf >= 0) { nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, glyph_index->ralf, 1, pcGlyphs, "rphf"); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, 1, cChars, pwLogClust); shift_syllable_glyph_indexs(glyph_index,glyph_index->ralf,*pcGlyphs - prevCount); } } } static inline INT find_halant_consonant(WCHAR* pwChars, INT index, INT end, lexical_function lexical) { int i = 0; while (index + i < end-1 && !(lexical(pwChars[index+i]) == lex_Halant && ((index + i < end-2 && lexical(pwChars[index+i]) == lex_Nukta && is_consonant(lexical(pwChars[index+i+1]))) || is_consonant(lexical(pwChars[index+i+1]))))) i++; if (index + i <= end-1) return index+i; else return -1; } static void Apply_Indic_PostBase(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwChars, INT cChars, IndicSyllable *syllable, WORD *pwOutGlyphs, INT* pcGlyphs, WORD *pwLogClust, lexical_function lexical, IndicSyllable *glyph_index, BOOL modern, const char* feat) { INT index, nextIndex; INT count, g_offset=0; INT ralf = syllable->ralf; count = syllable->end - syllable->base; index = find_halant_consonant(&pwChars[syllable->base], 0, count, lexical); while (index >= 0) { INT prevCount = *pcGlyphs; if (ralf >=0 && ralf < index) { g_offset--; ralf = -1; } if (!modern) { WORD g = pwOutGlyphs[index+glyph_index->base+g_offset]; pwOutGlyphs[index+glyph_index->base+g_offset] = pwOutGlyphs[index+glyph_index->base+g_offset+1]; pwOutGlyphs[index+glyph_index->base+g_offset+1] = g; } nextIndex = apply_GSUB_feature_to_glyph(hdc, psa, psc, pwOutGlyphs, index+glyph_index->base+g_offset, 1, pcGlyphs, feat); if (nextIndex > GSUB_E_NOGLYPH) { UpdateClusters(nextIndex, *pcGlyphs - prevCount, 1, cChars, pwLogClust); shift_syllable_glyph_indexs(glyph_index,index+glyph_index->start+g_offset, (*pcGlyphs - prevCount)); g_offset += (*pcGlyphs - prevCount); } else if (!modern) { WORD g = pwOutGlyphs[index+glyph_index->base+g_offset]; pwOutGlyphs[index+glyph_index->base+g_offset] = pwOutGlyphs[index+glyph_index->base+g_offset+1]; pwOutGlyphs[index+glyph_index->base+g_offset+1] = g; } index+=2; index = find_halant_consonant(&pwChars[syllable->base], index, count, lexical); } } static void ShapeIndicSyllables(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwChars, INT cChars, IndicSyllable *syllables, INT syllable_count, WORD *pwOutGlyphs, INT* pcGlyphs, WORD *pwLogClust, lexical_function lexical, second_reorder_function second_reorder, BOOL modern) { int c; int overall_shift = 0; const GSUB_Feature *locl = (modern)?load_GSUB_feature(hdc, psa, psc, "locl"):NULL; const GSUB_Feature *nukt = load_GSUB_feature(hdc, psa, psc, "nukt"); const GSUB_Feature *akhn = load_GSUB_feature(hdc, psa, psc, "akhn"); const GSUB_Feature *rkrf = (modern)?load_GSUB_feature(hdc, psa, psc, "rkrf"):NULL; const GSUB_Feature *pstf = load_GSUB_feature(hdc, psa, psc, "pstf"); const GSUB_Feature *vatu = (!rkrf)?load_GSUB_feature(hdc, psa, psc, "vatu"):NULL; const GSUB_Feature *cjct = (modern)?load_GSUB_feature(hdc, psa, psc, "cjct"):NULL; BOOL rphf = (load_GSUB_feature(hdc, psa, psc, "rphf") != NULL); BOOL pref = (load_GSUB_feature(hdc, psa, psc, "pref") != NULL); BOOL blwf = (load_GSUB_feature(hdc, psa, psc, "blwf") != NULL); BOOL half = (load_GSUB_feature(hdc, psa, psc, "half") != NULL); IndicSyllable glyph_indexs; for (c = 0; c < syllable_count; c++) { int old_end; memcpy(&glyph_indexs, &syllables[c], sizeof(IndicSyllable)); shift_syllable_glyph_indexs(&glyph_indexs, -1, overall_shift); old_end = glyph_indexs.end; if (locl) { TRACE("applying feature locl\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, locl); } if (nukt) { TRACE("applying feature nukt\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, nukt); } if (akhn) { TRACE("applying feature akhn\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, akhn); } if (rphf) Apply_Indic_Rphf(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs); if (rkrf) { TRACE("applying feature rkrf\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, rkrf); } if (pref) Apply_Indic_PostBase(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, modern, "pref"); if (blwf) { if (!modern) Apply_Indic_PreBase(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, "blwf"); Apply_Indic_PostBase(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, modern, "blwf"); } if (half) Apply_Indic_PreBase(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, "half"); if (pstf) { TRACE("applying feature pstf\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, pstf); } if (vatu) { TRACE("applying feature vatu\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, vatu); } if (cjct) { TRACE("applying feature cjct\n"); Apply_Indic_BasicForm(hdc, psc, psa, pwChars, cChars, &syllables[c], pwOutGlyphs, pcGlyphs, pwLogClust, lexical, &glyph_indexs, cjct); } if (second_reorder) second_reorder(pwChars, &syllables[c], pwOutGlyphs, &glyph_indexs, lexical); overall_shift += glyph_indexs.end - old_end; } } static inline int unicode_lex(WCHAR c) { int type; if (!c) return lex_Generic; if (c == 0x200D) return lex_ZWJ; if (c == 0x200C) return lex_ZWNJ; if (c == 0x00A0) return lex_NBSP; type = get_table_entry( indic_syllabic_table, c ); if ((type & 0x00ff) != 0x0007) type = type & 0x00ff; switch( type ) { case 0x0d07: /* Unknown */ case 0x0e07: /* Unknwon */ default: return lex_Generic; case 0x0001: case 0x0002: case 0x0011: case 0x0012: case 0x0013: case 0x0014: return lex_Modifier; case 0x0003: case 0x0009: case 0x000a: case 0x000b: case 0x000d: case 0x000e: case 0x000f: case 0x0010: return lex_Consonant; case 0x0004: return lex_Nukta; case 0x0005: return lex_Halant; case 0x0006: case 0x0008: return lex_Vowel; case 0x0007: case 0x0107: return lex_Matra_post; case 0x0207: case 0x0307: return lex_Matra_pre; case 0x0807: case 0x0907: case 0x0a07: case 0x0b07: case 0x0c07: case 0x0407: return lex_Composed_Vowel; case 0x0507: return lex_Matra_above; case 0x0607: return lex_Matra_below; case 0x000c: return lex_Ra; }; } static int sinhala_lex(WCHAR c) { switch (c) { case 0x0DDA: case 0x0DDD: case 0x0DDC: case 0x0DDE: return lex_Matra_post; default: return unicode_lex(c); } } static const VowelComponents Sinhala_vowels[] = { {0x0DDA, {0x0DD9,0x0DDA,0x0}}, {0x0DDC, {0x0DD9,0x0DDC,0x0}}, {0x0DDD, {0x0DD9,0x0DDD,0x0}}, {0x0DDE, {0x0DD9,0x0DDE,0x0}}, {0x0000, {0x0000,0x0000,0x0}}}; static void ContextualShape_Sinhala(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; int i; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(),0,sizeof(WCHAR) * (cChars * 3)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose multi part vowels */ DecomposeVowels(hdc, input, &cCount, Sinhala_vowels, pwLogClust); TRACE("New double vowel expanded string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, sinhala_lex, Reorder_Like_Sinhala, TRUE); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); /* Step 3: Strip dangling joiners */ for (i = 0; i < cCount; i++) { if ((input[i] == 0x200D || input[i] == 0x200C) && (i == 0 || input[i-1] == 0x0020 || i == cCount-1 || input[i+1] == 0x0020)) input[i] = 0x0020; } /* Step 4: Base Form application to syllables */ GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, sinhala_lex, NULL, TRUE); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int devanagari_lex(WCHAR c) { switch (c) { case 0x0930: return lex_Ra; default: return unicode_lex(c); } } static const ConsonantComponents Devanagari_consonants[] ={ {{0x0928, 0x093C, 0x00000}, 0x0929}, {{0x0930, 0x093C, 0x00000}, 0x0931}, {{0x0933, 0x093C, 0x00000}, 0x0934}, {{0x0915, 0x093C, 0x00000}, 0x0958}, {{0x0916, 0x093C, 0x00000}, 0x0959}, {{0x0917, 0x093C, 0x00000}, 0x095A}, {{0x091C, 0x093C, 0x00000}, 0x095B}, {{0x0921, 0x093C, 0x00000}, 0x095C}, {{0x0922, 0x093C, 0x00000}, 0x095D}, {{0x092B, 0x093C, 0x00000}, 0x095E}, {{0x092F, 0x093C, 0x00000}, 0x095F}}; static void ContextualShape_Devanagari(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, cChars * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Compose Consonant and Nukta */ ComposeConsonants(hdc, input, &cCount, Devanagari_consonants, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, devanagari_lex, Reorder_Like_Devanagari, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, devanagari_lex, NULL, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int bengali_lex(WCHAR c) { switch (c) { case 0x09B0: return lex_Ra; default: return unicode_lex(c); } } static const VowelComponents Bengali_vowels[] = { {0x09CB, {0x09C7,0x09BE,0x0000}}, {0x09CC, {0x09C7,0x09D7,0x0000}}, {0x0000, {0x0000,0x0000,0x0000}}}; static const ConsonantComponents Bengali_consonants[] = { {{0x09A4,0x09CD,0x200D}, 0x09CE}, {{0x09A1,0x09BC,0x0000}, 0x09DC}, {{0x09A2,0x09BC,0x0000}, 0x09DD}, {{0x09AF,0x09BC,0x0000}, 0x09DF}, {{0x0000,0x0000,0x0000}, 0x0000}}; static void ContextualShape_Bengali(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars * 2) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels and Compose Consonents */ DecomposeVowels(hdc, input, &cCount, Bengali_vowels, pwLogClust); ComposeConsonants(hdc, input, &cCount, Bengali_consonants, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, bengali_lex, Reorder_Like_Bengali, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Initial form is only applied to the beginning of words */ for (cCount = cCount - 1 ; cCount >= 0; cCount --) { if (cCount == 0 || input[cCount] == 0x0020) /* space */ { int index = cCount; int gCount = 1; if (index > 0) index++; apply_GSUB_feature_to_glyph(hdc, psa, psc, &pwOutGlyphs[index], 0, 1, &gCount, "init"); } } /* Step 4: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, bengali_lex, NULL, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int gurmukhi_lex(WCHAR c) { return unicode_lex(c); } static const ConsonantComponents Gurmukhi_consonants[] = { {{0x0A32,0x0A3C,0x0000}, 0x0A33}, {{0x0A38,0x0A3C,0x0000}, 0x0A36}, {{0x0A16,0x0A3C,0x0000}, 0x0A59}, {{0x0A17,0x0A3C,0x0000}, 0x0A5A}, {{0x0A1C,0x0A3C,0x0000}, 0x0A5B}, {{0x0A2B,0x0A3C,0x0000}, 0x0A5E}, {{0x0000,0x0000,0x0000}, 0x0000}}; static void ContextualShape_Gurmukhi(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, cChars * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Compose Consonents */ ComposeConsonants(hdc, input, &cCount, Gurmukhi_consonants, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, gurmukhi_lex, Reorder_Like_Bengali, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, gurmukhi_lex, NULL, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int gujarati_lex(WCHAR c) { switch (c) { case 0x0AB0: return lex_Ra; default: return unicode_lex(c); } } static void ContextualShape_Gujarati(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, cChars * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, gujarati_lex, Reorder_Like_Devanagari, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 2: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, gujarati_lex, NULL, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int oriya_lex(WCHAR c) { switch (c) { case 0x0B30: return lex_Ra; default: return unicode_lex(c); } } static const VowelComponents Oriya_vowels[] = { {0x0B48, {0x0B47,0x0B56,0x0000}}, {0x0B4B, {0x0B47,0x0B3E,0x0000}}, {0x0B4C, {0x0B47,0x0B57,0x0000}}, {0x0000, {0x0000,0x0000,0x0000}}}; static const ConsonantComponents Oriya_consonants[] = { {{0x0B21,0x0B3C,0x0000}, 0x0B5C}, {{0x0B22,0x0B3C,0x0000}, 0x0B5D}, {{0x0000,0x0000,0x0000}, 0x0000}}; static void ContextualShape_Oriya(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars*2) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels and Compose Consonents */ DecomposeVowels(hdc, input, &cCount, Oriya_vowels, pwLogClust); ComposeConsonants(hdc, input, &cCount, Oriya_consonants, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, oriya_lex, Reorder_Like_Bengali, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, oriya_lex, NULL, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int tamil_lex(WCHAR c) { return unicode_lex(c); } static const VowelComponents Tamil_vowels[] = { {0x0BCA, {0x0BC6,0x0BBE,0x0000}}, {0x0BCB, {0x0BC7,0x0BBE,0x0000}}, {0x0BCB, {0x0BC6,0x0BD7,0x0000}}, {0x0000, {0x0000,0x0000,0x0000}}}; static const ConsonantComponents Tamil_consonants[] = { {{0x0B92,0x0BD7,0x0000}, 0x0B94}, {{0x0000,0x0000,0x0000}, 0x0000}}; static void ContextualShape_Tamil(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars*2) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels and Compose Consonents */ DecomposeVowels(hdc, input, &cCount, Tamil_vowels, pwLogClust); ComposeConsonants(hdc, input, &cCount, Tamil_consonants, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, tamil_lex, Reorder_Like_Bengali, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, tamil_lex, SecondReorder_Like_Tamil, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int telugu_lex(WCHAR c) { switch (c) { case 0x0C43: case 0x0C44: return lex_Modifier; default: return unicode_lex(c); } } static const VowelComponents Telugu_vowels[] = { {0x0C48, {0x0C46,0x0C56,0x0000}}, {0x0000, {0x0000,0x0000,0x0000}}}; static void ContextualShape_Telugu(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars*2) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels */ DecomposeVowels(hdc, input, &cCount, Telugu_vowels, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, telugu_lex, Reorder_Like_Bengali, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, telugu_lex, SecondReorder_Like_Telugu, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int kannada_lex(WCHAR c) { switch (c) { case 0x0CB0: return lex_Ra; default: return unicode_lex(c); } } static const VowelComponents Kannada_vowels[] = { {0x0CC0, {0x0CBF,0x0CD5,0x0000}}, {0x0CC7, {0x0CC6,0x0CD5,0x0000}}, {0x0CC8, {0x0CC6,0x0CD6,0x0000}}, {0x0CCA, {0x0CC6,0x0CC2,0x0000}}, {0x0CCB, {0x0CC6,0x0CC2,0x0CD5}}, {0x0000, {0x0000,0x0000,0x0000}}}; static void ContextualShape_Kannada(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars*3) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels */ DecomposeVowels(hdc, input, &cCount, Kannada_vowels, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, kannada_lex, Reorder_Like_Kannada, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, kannada_lex, SecondReorder_Like_Telugu, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static int malayalam_lex(WCHAR c) { return unicode_lex(c); } static const VowelComponents Malayalam_vowels[] = { {0x0D4A, {0x0D46,0x0D3E,0x0000}}, {0x0D4B, {0x0D47,0x0D3E,0x0000}}, {0x0D4C, {0x0D46,0x0D57,0x0000}}, {0x0000, {0x0000,0x0000,0x0000}}}; static void ContextualShape_Malayalam(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { int cCount = cChars; WCHAR *input; IndicSyllable *syllables = NULL; int syllable_count = 0; BOOL modern = get_GSUB_Indic2(psa, psc); if (*pcGlyphs != cChars) { ERR("Number of Glyphs and Chars need to match at the beginning\n"); return; } input = HeapAlloc(GetProcessHeap(), 0, (cChars*2) * sizeof(WCHAR)); memcpy(input, pwcChars, cChars * sizeof(WCHAR)); /* Step 1: Decompose Vowels */ DecomposeVowels(hdc, input, &cCount, Malayalam_vowels, pwLogClust); TRACE("New composed string %s (%i)\n",debugstr_wn(input,cCount),cCount); /* Step 2: Reorder within Syllables */ Indic_ReorderCharacters( hdc, psa, psc, input, cCount, &syllables, &syllable_count, malayalam_lex, Reorder_Like_Devanagari, modern); TRACE("reordered string %s\n",debugstr_wn(input,cCount)); GetGlyphIndicesW(hdc, input, cCount, pwOutGlyphs, 0); *pcGlyphs = cCount; /* Step 3: Base Form application to syllables */ ShapeIndicSyllables(hdc, psc, psa, input, cChars, syllables, syllable_count, pwOutGlyphs, pcGlyphs, pwLogClust, malayalam_lex, SecondReorder_Like_Tamil, modern); HeapFree(GetProcessHeap(),0,input); HeapFree(GetProcessHeap(),0,syllables); } static void ShapeCharGlyphProp_Default( HDC hdc, ScriptCache* psc, SCRIPT_ANALYSIS* psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD* pwLogClust, SCRIPT_CHARPROP* pCharProp, SCRIPT_GLYPHPROP* pGlyphProp) { int i,k; for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count ==1 && pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_BLANK; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_CHARACTER; } GDEF_UpdateGlyphProps(hdc, psc, pwGlyphs, cGlyphs, pwLogClust, pGlyphProp); UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); } static void ShapeCharGlyphProp_Arabic( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { int i,k; int initGlyph, finaGlyph; INT dirR, dirL; BYTE *spaces; spaces = HeapAlloc(GetProcessHeap(),0,cGlyphs); memset(spaces,0,cGlyphs); if (!psa->fLogicalOrder && psa->fRTL) { initGlyph = cGlyphs-1; finaGlyph = 0; dirR = 1; dirL = -1; } else { initGlyph = 0; finaGlyph = cGlyphs-1; dirR = -1; dirL = 1; } for (i = 0; i < cGlyphs; i++) { for (k = 0; k < cChars; k++) if (pwLogClust[k] == i) { if (pwcChars[k] == 0x0020) spaces[i] = 1; } } for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; BOOL isInit, isFinal; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } isInit = (i == initGlyph || (i+dirR > 0 && i+dirR < cGlyphs && spaces[i+dirR])); isFinal = (i == finaGlyph || (i+dirL > 0 && i+dirL < cGlyphs && spaces[i+dirL])); if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count == 1) { if (pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_BLANK; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else if (pwcChars[char_index[0]] == 0x0640) /* kashida */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_KASHIDA; else if (pwcChars[char_index[0]] == 0x0633) /* SEEN */ { if (!isInit && !isFinal) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_SEEN_M; else if (isInit) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_SEEN; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } else if (!isInit) { if (pwcChars[char_index[0]] == 0x0628 ) /* BA */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_BA; else if (pwcChars[char_index[0]] == 0x0631 ) /* RA */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_RA; else if (pwcChars[char_index[0]] == 0x0647 ) /* HA */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_HA; else if ((pwcChars[char_index[0]] == 0x0627 || pwcChars[char_index[0]] == 0x0625 || pwcChars[char_index[0]] == 0x0623 || pwcChars[char_index[0]] == 0x0622) ) /* alef-like */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_ALEF; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } else if (!isInit && !isFinal) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_NORMAL; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } else if (char_count == 2) { if ((pwcChars[char_index[0]] == 0x0628 && pwcChars[char_index[1]]== 0x0631) || (pwcChars[char_index[0]] == 0x0631 && pwcChars[char_index[1]]== 0x0628)) /* BA+RA */ pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_BARA; else if (!isInit) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_NORMAL; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } else if (!isInit && !isFinal) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_ARABIC_NORMAL; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } GDEF_UpdateGlyphProps(hdc, psc, pwGlyphs, cGlyphs, pwLogClust, pGlyphProp); UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); HeapFree(GetProcessHeap(),0,spaces); } static void ShapeCharGlyphProp_Thai( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { int i,k; int finaGlyph; INT dirL; BYTE *spaces; spaces = HeapAlloc(GetProcessHeap(),0,cGlyphs); memset(spaces,0,cGlyphs); if (!psa->fLogicalOrder && psa->fRTL) { finaGlyph = 0; dirL = -1; } else { finaGlyph = cGlyphs-1; dirL = 1; } for (i = 0; i < cGlyphs; i++) { for (k = 0; k < cChars; k++) if (pwLogClust[k] == i) { if (pwcChars[k] == 0x0020) spaces[i] = 1; } } for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count ==1 && pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_CHARACTER; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else if (i == finaGlyph) pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_CHARACTER; } HeapFree(GetProcessHeap(),0,spaces); GDEF_UpdateGlyphProps(hdc, psc, pwGlyphs, cGlyphs, pwLogClust, pGlyphProp); UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); /* Do not allow justification between marks and their base */ for (i = 0; i < cGlyphs; i++) { if (!pGlyphProp[i].sva.fClusterStart) pGlyphProp[i-dirL].sva.uJustification = SCRIPT_JUSTIFY_NONE; } } static void ShapeCharGlyphProp_None( HDC hdc, ScriptCache* psc, SCRIPT_ANALYSIS* psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD* pwLogClust, SCRIPT_CHARPROP* pCharProp, SCRIPT_GLYPHPROP* pGlyphProp) { int i,k; for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count ==1 && pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_CHARACTER; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } GDEF_UpdateGlyphProps(hdc, psc, pwGlyphs, cGlyphs, pwLogClust, pGlyphProp); UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); } static void ShapeCharGlyphProp_Tibet( HDC hdc, ScriptCache* psc, SCRIPT_ANALYSIS* psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD* pwLogClust, SCRIPT_CHARPROP* pCharProp, SCRIPT_GLYPHPROP* pGlyphProp) { int i,k; for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count ==1 && pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_BLANK; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; } GDEF_UpdateGlyphProps(hdc, psc, pwGlyphs, cGlyphs, pwLogClust, pGlyphProp); UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); /* Tibeten script does not set sva.fDiacritic or sva.fZeroWidth */ for (i = 0; i < cGlyphs; i++) { if (!pGlyphProp[i].sva.fClusterStart) { pGlyphProp[i].sva.fDiacritic = 0; pGlyphProp[i].sva.fZeroWidth = 0; } } } static void ShapeCharGlyphProp_BaseIndic( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp, lexical_function lexical) { int i,k; for (i = 0; i < cGlyphs; i++) { int char_index[20]; int char_count = 0; for (k = 0; k < cChars; k++) { if (pwLogClust[k] == i) { char_index[char_count] = k; char_count++; } } if (char_count == 0) { FIXME("No chars in this glyph? Must be an error\n"); continue; } if (char_count ==1 && pwcChars[char_index[0]] == 0x0020) /* space */ { pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_BLANK; pCharProp[char_index[0]].fCanGlyphAlone = 1; } else pGlyphProp[i].sva.uJustification = SCRIPT_JUSTIFY_NONE; pGlyphProp[i].sva.fClusterStart = 0; for (k = 0; k < char_count && !pGlyphProp[i].sva.fClusterStart; k++) switch (lexical(pwcChars[char_index[k]])) { case lex_Matra_pre: case lex_Matra_post: case lex_Matra_above: case lex_Matra_below: case lex_Modifier: break; default: pGlyphProp[i].sva.fClusterStart = 1; break; } } UpdateClustersFromGlyphProp(cGlyphs, cChars, pwLogClust, pGlyphProp); } static void ShapeCharGlyphProp_Devanagari( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, devanagari_lex); } static void ShapeCharGlyphProp_Bengali( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, bengali_lex); } static void ShapeCharGlyphProp_Gurmukhi( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, gurmukhi_lex); } static void ShapeCharGlyphProp_Gujarati( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, gujarati_lex); } static void ShapeCharGlyphProp_Oriya( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, oriya_lex); } static void ShapeCharGlyphProp_Tamil( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, tamil_lex); } static void ShapeCharGlyphProp_Telugu( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, telugu_lex); } static void ShapeCharGlyphProp_Kannada( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, kannada_lex); } static void ShapeCharGlyphProp_Malayalam( HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp ) { ShapeCharGlyphProp_BaseIndic(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp, malayalam_lex); } void SHAPE_CharGlyphProp(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, const WCHAR* pwcChars, const INT cChars, const WORD* pwGlyphs, const INT cGlyphs, WORD *pwLogClust, SCRIPT_CHARPROP *pCharProp, SCRIPT_GLYPHPROP *pGlyphProp) { if (ShapingData[psa->eScript].charGlyphPropProc) ShapingData[psa->eScript].charGlyphPropProc(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp); else ShapeCharGlyphProp_Default(hdc, psc, psa, pwcChars, cChars, pwGlyphs, cGlyphs, pwLogClust, pCharProp, pGlyphProp); } void SHAPE_ContextualShaping(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WCHAR* pwcChars, INT cChars, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, WORD *pwLogClust) { if (ShapingData[psa->eScript].contextProc) ShapingData[psa->eScript].contextProc(hdc, psc, psa, pwcChars, cChars, pwOutGlyphs, pcGlyphs, cMaxGlyphs, pwLogClust); } static void SHAPE_ApplyOpenTypeFeatures(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, INT cChars, const TEXTRANGE_PROPERTIES *rpRangeProperties, WORD *pwLogClust) { int i; INT dirL; if (!rpRangeProperties) return; if (!psc->GSUB_Table) psc->GSUB_Table = load_gsub_table(hdc); if (!psc->GSUB_Table) return; if (!psa->fLogicalOrder && psa->fRTL) dirL = -1; else dirL = 1; for (i = 0; i < rpRangeProperties->cotfRecords; i++) { if (rpRangeProperties->potfRecords[i].lParameter > 0) apply_GSUB_feature(hdc, psa, psc, pwOutGlyphs, dirL, pcGlyphs, cChars, (const char*)&rpRangeProperties->potfRecords[i].tagFeature, pwLogClust); } } void SHAPE_ApplyDefaultOpentypeFeatures(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa, WORD* pwOutGlyphs, INT* pcGlyphs, INT cMaxGlyphs, INT cChars, WORD *pwLogClust) { const TEXTRANGE_PROPERTIES *rpRangeProperties; rpRangeProperties = &ShapingData[psa->eScript].defaultTextRange; SHAPE_ApplyOpenTypeFeatures(hdc, psc, psa, pwOutGlyphs, pcGlyphs, cMaxGlyphs, cChars, rpRangeProperties, pwLogClust); } HRESULT SHAPE_CheckFontForRequiredFeatures(HDC hdc, ScriptCache *psc, SCRIPT_ANALYSIS *psa) { const GSUB_Feature *feature; int i; if (!ShapingData[psa->eScript].requiredFeatures) return S_OK; if (!psc->GSUB_Table) psc->GSUB_Table = load_gsub_table(hdc); /* we need to have at least one of the required features */ i = 0; while (ShapingData[psa->eScript].requiredFeatures[i]) { feature = load_GSUB_feature(hdc, psa, psc, ShapingData[psa->eScript].requiredFeatures[i]); if (feature) return S_OK; i++; } return USP_E_SCRIPT_NOT_IN_FONT; }