/******************************************************************* * * ftxopen.c * * TrueType Open common table support. * * Copyright 1996-1999 by * David Turner, Robert Wilhelm, and Werner Lemberg. * * This file is part of the FreeType project, and may only be used * modified and distributed under the terms of the FreeType project * license, LICENSE.TXT. By continuing to use, modify, or distribute * this file you indicate that you have read the license and * understand and accept it fully. * ******************************************************************/ #include "tttypes.h" #include "ttload.h" #include "ttextend.h" #include "ttmemory.h" #include "ttfile.h" #include "ftxopen.h" #include "ftxopenf.h" /*************************** * Script related functions ***************************/ /* LangSys */ static TT_Error Load_LangSys( TTO_LangSys* ls, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; UShort* fi; if ( ACCESS_Frame( 6L ) ) return error; ls->LookupOrderOffset = GET_UShort(); /* should be 0 */ ls->ReqFeatureIndex = GET_UShort(); count = ls->FeatureCount = GET_UShort(); FORGET_Frame(); ls->FeatureIndex = NULL; if ( ALLOC_ARRAY( ls->FeatureIndex, count, UShort ) ) return error; if ( ACCESS_Frame( count * 2L ) ) { FREE( ls->FeatureIndex ); return error; } fi = ls->FeatureIndex; for ( n = 0; n < count; n++ ) fi[n] = GET_UShort(); FORGET_Frame(); return TT_Err_Ok; } static void Free_LangSys( TTO_LangSys* ls ) { FREE( ls->FeatureIndex ); } /* Script */ static TT_Error Load_Script( TTO_Script* s, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; ULong cur_offset, new_offset, base_offset; TTO_LangSysRecord* lsr; base_offset = FILE_Pos(); if ( ACCESS_Frame( 2L ) ) return error; new_offset = GET_UShort() + base_offset; FORGET_Frame(); if ( new_offset != base_offset ) /* not a NULL offset */ { cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_LangSys( &s->DefaultLangSys, input ) ) != TT_Err_Ok ) return error; (void)FILE_Seek( cur_offset ); } else { /* we create a DefaultLangSys table with no entries */ s->DefaultLangSys.LookupOrderOffset = 0; s->DefaultLangSys.ReqFeatureIndex = 0xFFFF; s->DefaultLangSys.FeatureCount = 0; s->DefaultLangSys.FeatureIndex = NULL; } if ( ACCESS_Frame( 2L ) ) goto Fail2; count = s->LangSysCount = GET_UShort(); /* safety check; otherwise the official handling of TrueType Open fonts won't work */ if ( s->LangSysCount == 0 && s->DefaultLangSys.FeatureCount == 0 ) { error = TTO_Err_Invalid_SubTable; goto Fail2; } FORGET_Frame(); s->LangSysRecord = NULL; if ( ALLOC_ARRAY( s->LangSysRecord, count, TTO_LangSysRecord ) ) goto Fail2; lsr = s->LangSysRecord; for ( n = 0; n < count; n++ ) { if ( ACCESS_Frame( 6L ) ) goto Fail1; lsr[n].LangSysTag = GET_ULong(); new_offset = GET_UShort() + base_offset; FORGET_Frame(); cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_LangSys( &lsr[n].LangSys, input ) ) != TT_Err_Ok ) goto Fail1; (void)FILE_Seek( cur_offset ); } return TT_Err_Ok; Fail1: for ( n = 0; n < count; n++ ) Free_LangSys( &lsr[n].LangSys ); FREE( s->LangSysRecord ); Fail2: Free_LangSys( &s->DefaultLangSys ); return error; } static void Free_Script( TTO_Script* s ) { UShort n, count; TTO_LangSysRecord* lsr; Free_LangSys( &s->DefaultLangSys ); if ( s->LangSysRecord ) { count = s->LangSysCount; lsr = s->LangSysRecord; for ( n = 0; n < count; n++ ) Free_LangSys( &lsr[n].LangSys ); FREE( lsr ); } } /* ScriptList */ TT_Error Load_ScriptList( TTO_ScriptList* sl, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; ULong cur_offset, new_offset, base_offset; TTO_ScriptRecord* sr; base_offset = FILE_Pos(); if ( ACCESS_Frame( 2L ) ) return error; count = sl->ScriptCount = GET_UShort(); FORGET_Frame(); sl->ScriptRecord = NULL; if ( ALLOC_ARRAY( sl->ScriptRecord, count, TTO_ScriptRecord ) ) return error; sr = sl->ScriptRecord; for ( n = 0; n < count; n++ ) { if ( ACCESS_Frame( 6L ) ) goto Fail; sr[n].ScriptTag = GET_ULong(); new_offset = GET_UShort() + base_offset; FORGET_Frame(); cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_Script( &sr[n].Script, input ) ) != TT_Err_Ok ) goto Fail; (void)FILE_Seek( cur_offset ); } return TT_Err_Ok; Fail: for ( n = 0; n < count; n++ ) Free_Script( &sr[n].Script ); FREE( sl->ScriptRecord ); return error; } void Free_ScriptList( TTO_ScriptList* sl ) { UShort n, count; TTO_ScriptRecord* sr; if ( sl->ScriptRecord ) { count = sl->ScriptCount; sr = sl->ScriptRecord; for ( n = 0; n < count; n++ ) Free_Script( &sr[n].Script ); FREE( sr ); } } /********************************* * Feature List related functions *********************************/ /* Feature */ static TT_Error Load_Feature( TTO_Feature* f, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; UShort* lli; if ( ACCESS_Frame( 4L ) ) return error; f->FeatureParams = GET_UShort(); /* should be 0 */ count = f->LookupListCount = GET_UShort(); FORGET_Frame(); f->LookupListIndex = NULL; if ( ALLOC_ARRAY( f->LookupListIndex, count, UShort ) ) return error; lli = f->LookupListIndex; if ( ACCESS_Frame( count * 2L ) ) { FREE( f->LookupListIndex ); return error; } for ( n = 0; n < count; n++ ) lli[n] = GET_UShort(); FORGET_Frame(); return TT_Err_Ok; } static void Free_Feature( TTO_Feature* f ) { FREE( f->LookupListIndex ); } /* FeatureList */ TT_Error Load_FeatureList( TTO_FeatureList* fl, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; ULong cur_offset, new_offset, base_offset; TTO_FeatureRecord* fr; base_offset = FILE_Pos(); if ( ACCESS_Frame( 2L ) ) return error; count = fl->FeatureCount = GET_UShort(); FORGET_Frame(); fl->FeatureRecord = NULL; if ( ALLOC_ARRAY( fl->FeatureRecord, count, TTO_FeatureRecord ) ) return error; fr = fl->FeatureRecord; for ( n = 0; n < count; n++ ) { if ( ACCESS_Frame( 6L ) ) goto Fail; fr[n].FeatureTag = GET_ULong(); new_offset = GET_UShort() + base_offset; FORGET_Frame(); cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_Feature( &fr[n].Feature, input ) ) != TT_Err_Ok ) goto Fail; (void)FILE_Seek( cur_offset ); } return TT_Err_Ok; Fail: for ( n = 0; n < count; n++ ) Free_Feature( &fr[n].Feature ); FREE( fl->FeatureRecord ); return error; } void Free_FeatureList( TTO_FeatureList* fl ) { UShort n, count; TTO_FeatureRecord* fr; if ( fl->FeatureRecord ) { count = fl->FeatureCount; fr = fl->FeatureRecord; for ( n = 0; n < count; n++ ) Free_Feature( &fr[n].Feature ); FREE( fr ); } } /******************************** * Lookup List related functions ********************************/ /* the subroutines of the following two functions are defined in ftxgsub.c and ftxgpos.c respectively */ /* SubTable */ static TT_Error Load_SubTable( TTO_SubTable* st, PFace input, TTO_Type table_type, UShort lookup_type ) { if ( table_type == GSUB ) switch ( lookup_type ) { case GSUB_LOOKUP_SINGLE: return Load_SingleSubst( &st->st.gsub.single, input ); case GSUB_LOOKUP_MULTIPLE: return Load_MultipleSubst( &st->st.gsub.multiple, input ); case GSUB_LOOKUP_ALTERNATE: return Load_AlternateSubst( &st->st.gsub.alternate, input ); case GSUB_LOOKUP_LIGATURE: return Load_LigatureSubst( &st->st.gsub.ligature, input ); case GSUB_LOOKUP_CONTEXT: return Load_ContextSubst( &st->st.gsub.context, input ); case GSUB_LOOKUP_CHAIN: return Load_ChainContextSubst( &st->st.gsub.chain, input ); default: return TTO_Err_Invalid_GSUB_SubTable_Format; } else switch ( lookup_type ) { case GPOS_LOOKUP_SINGLE: return Load_SinglePos( &st->st.gpos.single, input ); case GPOS_LOOKUP_PAIR: return Load_PairPos( &st->st.gpos.pair, input ); case GPOS_LOOKUP_CURSIVE: return Load_CursivePos( &st->st.gpos.cursive, input ); case GPOS_LOOKUP_MARKBASE: return Load_MarkBasePos( &st->st.gpos.markbase, input ); case GPOS_LOOKUP_MARKLIG: return Load_MarkLigPos( &st->st.gpos.marklig, input ); case GPOS_LOOKUP_MARKMARK: return Load_MarkMarkPos( &st->st.gpos.markmark, input ); case GPOS_LOOKUP_CONTEXT: return Load_ContextPos( &st->st.gpos.context, input ); case GPOS_LOOKUP_CHAIN: return Load_ChainContextPos ( &st->st.gpos.chain, input ); default: return TTO_Err_Invalid_GPOS_SubTable_Format; } return TT_Err_Ok; /* never reached */ } static void Free_SubTable( TTO_SubTable* st, TTO_Type table_type, UShort lookup_type ) { if ( table_type == GSUB ) switch ( lookup_type ) { case GSUB_LOOKUP_SINGLE: Free_SingleSubst( &st->st.gsub.single ); break; case GSUB_LOOKUP_MULTIPLE: Free_MultipleSubst( &st->st.gsub.multiple ); break; case GSUB_LOOKUP_ALTERNATE: Free_AlternateSubst( &st->st.gsub.alternate ); break; case GSUB_LOOKUP_LIGATURE: Free_LigatureSubst( &st->st.gsub.ligature ); break; case GSUB_LOOKUP_CONTEXT: Free_ContextSubst( &st->st.gsub.context ); break; case GSUB_LOOKUP_CHAIN: Free_ChainContextSubst( &st->st.gsub.chain ); break; } else switch ( lookup_type ) { case GPOS_LOOKUP_SINGLE: Free_SinglePos( &st->st.gpos.single ); break; case GPOS_LOOKUP_PAIR: Free_PairPos( &st->st.gpos.pair ); break; case GPOS_LOOKUP_CURSIVE: Free_CursivePos( &st->st.gpos.cursive ); break; case GPOS_LOOKUP_MARKBASE: Free_MarkBasePos( &st->st.gpos.markbase ); break; case GPOS_LOOKUP_MARKLIG: Free_MarkLigPos( &st->st.gpos.marklig ); break; case GPOS_LOOKUP_MARKMARK: Free_MarkMarkPos( &st->st.gpos.markmark ); break; case GPOS_LOOKUP_CONTEXT: Free_ContextPos( &st->st.gpos.context ); break; case GPOS_LOOKUP_CHAIN: Free_ChainContextPos ( &st->st.gpos.chain ); break; } } /* Lookup */ static TT_Error Load_Lookup( TTO_Lookup* l, PFace input, TTO_Type type ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; ULong cur_offset, new_offset, base_offset; TTO_SubTable* st; base_offset = FILE_Pos(); if ( ACCESS_Frame( 6L ) ) return error; l->LookupType = GET_UShort(); l->LookupFlag = GET_UShort(); count = l->SubTableCount = GET_UShort(); FORGET_Frame(); l->SubTable = NULL; if ( ALLOC_ARRAY( l->SubTable, count, TTO_SubTable ) ) return error; st = l->SubTable; for ( n = 0; n < count; n++ ) { if ( ACCESS_Frame( 2L ) ) goto Fail; new_offset = GET_UShort() + base_offset; FORGET_Frame(); cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_SubTable( &st[n], input, type, l->LookupType ) ) != TT_Err_Ok ) goto Fail; (void)FILE_Seek( cur_offset ); } return TT_Err_Ok; Fail: for ( n = 0; n < count; n++ ) Free_SubTable( &st[n], type, l->LookupType ); FREE( l->SubTable ); return error; } static void Free_Lookup( TTO_Lookup* l, TTO_Type type ) { UShort n, count; TTO_SubTable* st; if ( l->SubTable ) { count = l->SubTableCount; st = l->SubTable; for ( n = 0; n < count; n++ ) Free_SubTable( &st[n], type, l->LookupType ); FREE( st ); } } /* LookupList */ TT_Error Load_LookupList( TTO_LookupList* ll, PFace input, TTO_Type type ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; ULong cur_offset, new_offset, base_offset; TTO_Lookup* l; base_offset = FILE_Pos(); if ( ACCESS_Frame( 2L ) ) return error; count = ll->LookupCount = GET_UShort(); FORGET_Frame(); ll->Lookup = NULL; if ( ALLOC_ARRAY( ll->Lookup, count, TTO_Lookup ) ) return error; if ( ALLOC_ARRAY( ll->Properties, count, UShort ) ) goto Fail2; l = ll->Lookup; for ( n = 0; n < count; n++ ) { if ( ACCESS_Frame( 2L ) ) goto Fail1; new_offset = GET_UShort() + base_offset; FORGET_Frame(); cur_offset = FILE_Pos(); if ( FILE_Seek( new_offset ) || ( error = Load_Lookup( &l[n], input, type ) ) != TT_Err_Ok ) goto Fail1; (void)FILE_Seek( cur_offset ); } return TT_Err_Ok; Fail1: FREE( ll->Properties ); for ( n = 0; n < count; n++ ) Free_Lookup( &l[n], type ); Fail2: FREE( ll->Lookup ); return error; } void Free_LookupList( TTO_LookupList* ll, TTO_Type type ) { UShort n, count; TTO_Lookup* l; FREE( ll->Properties ); if ( ll->Lookup ) { count = ll->LookupCount; l = ll->Lookup; for ( n = 0; n < count; n++ ) Free_Lookup( &l[n], type ); FREE( l ); } } /***************************** * Coverage related functions *****************************/ /* CoverageFormat1 */ static TT_Error Load_Coverage1( TTO_CoverageFormat1* cf1, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; UShort* ga; if ( ACCESS_Frame( 2L ) ) return error; count = cf1->GlyphCount = GET_UShort(); FORGET_Frame(); cf1->GlyphArray = NULL; if ( ALLOC_ARRAY( cf1->GlyphArray, count, UShort ) ) return error; ga = cf1->GlyphArray; if ( ACCESS_Frame( count * 2L ) ) { FREE( cf1->GlyphArray ); return error; } for ( n = 0; n < count; n++ ) ga[n] = GET_UShort(); FORGET_Frame(); return TT_Err_Ok; } static void Free_Coverage1( TTO_CoverageFormat1* cf1 ) { FREE( cf1->GlyphArray ); } /* CoverageFormat2 */ static TT_Error Load_Coverage2( TTO_CoverageFormat2* cf2, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; TTO_RangeRecord* rr; if ( ACCESS_Frame( 2L ) ) return error; count = cf2->RangeCount = GET_UShort(); FORGET_Frame(); cf2->RangeRecord = NULL; if ( ALLOC_ARRAY( cf2->RangeRecord, count, TTO_RangeRecord ) ) return error; rr = cf2->RangeRecord; if ( ACCESS_Frame( count * 6L ) ) goto Fail; for ( n = 0; n < count; n++ ) { rr[n].Start = GET_UShort(); rr[n].End = GET_UShort(); rr[n].StartCoverageIndex = GET_UShort(); /* sanity check; we are limited to 16bit integers */ if ( rr[n].Start > rr[n].End || ( rr[n].End - rr[n].Start + (long)rr[n].StartCoverageIndex ) >= 0x10000L ) { error = TTO_Err_Invalid_SubTable; goto Fail; } } FORGET_Frame(); return TT_Err_Ok; Fail: FREE( cf2->RangeRecord ); return error; } static void Free_Coverage2( TTO_CoverageFormat2* cf2 ) { FREE( cf2->RangeRecord ); } TT_Error Load_Coverage( TTO_Coverage* c, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); if ( ACCESS_Frame( 2L ) ) return error; c->CoverageFormat = GET_UShort(); FORGET_Frame(); switch ( c->CoverageFormat ) { case 1: return Load_Coverage1( &c->cf.cf1, input ); case 2: return Load_Coverage2( &c->cf.cf2, input ); default: return TTO_Err_Invalid_SubTable_Format; } return TT_Err_Ok; /* never reached */ } void Free_Coverage( TTO_Coverage* c ) { switch ( c->CoverageFormat ) { case 1: Free_Coverage1( &c->cf.cf1 ); break; case 2: Free_Coverage2( &c->cf.cf2 ); break; } } static TT_Error Coverage_Index1( TTO_CoverageFormat1* cf1, UShort glyphID, UShort* index ) { UShort min, max, new_min, new_max, middle; UShort* array = cf1->GlyphArray; /* binary search */ new_min = 0; new_max = cf1->GlyphCount - 1; do { min = new_min; max = new_max; /* we use (min + max) / 2 = max - (max - min) / 2 to avoid overflow and rounding errors */ middle = max - ( ( max - min ) >> 1 ); if ( glyphID == array[middle] ) { *index = middle; return TT_Err_Ok; } else if ( glyphID < array[middle] ) { if ( middle == min ) break; new_max = middle - 1; } else { if ( middle == max ) break; new_min = middle + 1; } } while ( min < max ); return TTO_Err_Not_Covered; } static TT_Error Coverage_Index2( TTO_CoverageFormat2* cf2, UShort glyphID, UShort* index ) { UShort min, max, new_min, new_max, middle; TTO_RangeRecord* rr = cf2->RangeRecord; /* binary search */ new_min = 0; new_max = cf2->RangeCount - 1; do { min = new_min; max = new_max; /* we use (min + max) / 2 = max - (max - min) / 2 to avoid overflow and rounding errors */ middle = max - ( ( max - min ) >> 1 ); if ( glyphID >= rr[middle].Start && glyphID <= rr[middle].End ) { *index = rr[middle].StartCoverageIndex + glyphID - rr[middle].Start; return TT_Err_Ok; } else if ( glyphID < rr[middle].Start ) { if ( middle == min ) break; new_max = middle - 1; } else { if ( middle == max ) break; new_min = middle + 1; } } while ( min < max ); return TTO_Err_Not_Covered; } TT_Error Coverage_Index( TTO_Coverage* c, UShort glyphID, UShort* index ) { switch ( c->CoverageFormat ) { case 1: return Coverage_Index1( &c->cf.cf1, glyphID, index ); case 2: return Coverage_Index2( &c->cf.cf2, glyphID, index ); default: return TTO_Err_Invalid_SubTable_Format; } return TT_Err_Ok; /* never reached */ } /************************************* * Class Definition related functions *************************************/ /* ClassDefFormat1 */ static TT_Error Load_ClassDef1( TTO_ClassDefinition* cd, UShort limit, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; UShort* cva; Bool* d; TTO_ClassDefFormat1* cdf1; cdf1 = &cd->cd.cd1; if ( ACCESS_Frame( 4L ) ) return error; cdf1->StartGlyph = GET_UShort(); count = cdf1->GlyphCount = GET_UShort(); FORGET_Frame(); /* sanity check; we are limited to 16bit integers */ if ( cdf1->StartGlyph + (long)count >= 0x10000L ) return TTO_Err_Invalid_SubTable; cdf1->ClassValueArray = NULL; if ( ALLOC_ARRAY( cdf1->ClassValueArray, count, UShort ) ) return error; d = cd->Defined; cva = cdf1->ClassValueArray; if ( ACCESS_Frame( count * 2L ) ) goto Fail; for ( n = 0; n < count; n++ ) { cva[n] = GET_UShort(); if ( cva[n] >= limit ) { error = TTO_Err_Invalid_SubTable; goto Fail; } d[cva[n]] = TRUE; } FORGET_Frame(); return TT_Err_Ok; Fail: FREE( cva ); return error; } static void Free_ClassDef1( TTO_ClassDefFormat1* cdf1 ) { FREE( cdf1->ClassValueArray ); } /* ClassDefFormat2 */ static TT_Error Load_ClassDef2 ( TTO_ClassDefinition* cd, UShort limit, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; TTO_ClassRangeRecord* crr; Bool* d; TTO_ClassDefFormat2* cdf2; cdf2 = &cd->cd.cd2; if ( ACCESS_Frame( 2L ) ) return error; count = cdf2->ClassRangeCount = GET_UShort(); FORGET_Frame(); cdf2->ClassRangeRecord = NULL; if ( ALLOC_ARRAY( cdf2->ClassRangeRecord, count, TTO_ClassRangeRecord ) ) return error; d = cd->Defined; crr = cdf2->ClassRangeRecord; if ( ACCESS_Frame( count * 6L ) ) goto Fail; for ( n = 0; n < count; n++ ) { crr[n].Start = GET_UShort(); crr[n].End = GET_UShort(); crr[n].Class = GET_UShort(); /* sanity check */ if ( crr[n].Start > crr[n].End || crr[n].Class >= limit ) { error = TTO_Err_Invalid_SubTable; goto Fail; } d[crr[n].Class] = TRUE; } FORGET_Frame(); return TT_Err_Ok; Fail: FREE( crr ); return error; } static void Free_ClassDef2( TTO_ClassDefFormat2* cdf2 ) { FREE( cdf2->ClassRangeRecord ); } /* ClassDefinition */ TT_Error Load_ClassDefinition( TTO_ClassDefinition* cd, UShort limit, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); if ( ALLOC_ARRAY( cd->Defined, limit, Bool ) ) return error; if ( ACCESS_Frame( 2L ) ) goto Fail; cd->ClassFormat = GET_UShort(); FORGET_Frame(); switch ( cd->ClassFormat ) { case 1: error = Load_ClassDef1( cd, limit, input ); break; case 2: error = Load_ClassDef2( cd, limit, input ); break; default: error = TTO_Err_Invalid_SubTable_Format; break; } if ( error ) goto Fail; cd->loaded = TRUE; return TT_Err_Ok; Fail: FREE( cd->Defined ); return error; } void Free_ClassDefinition( TTO_ClassDefinition* cd ) { if ( !cd->loaded ) return; FREE( cd->Defined ); switch ( cd->ClassFormat ) { case 1: Free_ClassDef1( &cd->cd.cd1 ); break; case 2: Free_ClassDef2( &cd->cd.cd2 ); break; } } static TT_Error Get_Class1( TTO_ClassDefFormat1* cdf1, UShort glyphID, UShort* class, UShort* index ) { UShort* cva = cdf1->ClassValueArray; *index = 0; if ( glyphID >= cdf1->StartGlyph && glyphID <= cdf1->StartGlyph + cdf1->GlyphCount ) { *class = cva[glyphID - cdf1->StartGlyph]; return TT_Err_Ok; } else { *class = 0; return TTO_Err_Not_Covered; } } /* we need the index value of the last searched class range record in case of failure for constructed GDEF tables */ static TT_Error Get_Class2( TTO_ClassDefFormat2* cdf2, UShort glyphID, UShort* class, UShort* index ) { TT_Error error = TT_Err_Ok; UShort min, max, new_min, new_max, middle; TTO_ClassRangeRecord* crr = cdf2->ClassRangeRecord; /* binary search */ new_min = 0; new_max = cdf2->ClassRangeCount - 1; do { min = new_min; max = new_max; /* we use (min + max) / 2 = max - (max - min) / 2 to avoid overflow and rounding errors */ middle = max - ( ( max - min ) >> 1 ); if ( glyphID >= crr[middle].Start && glyphID <= crr[middle].End ) { *class = crr[middle].Class; error = TT_Err_Ok; break; } else if ( glyphID < crr[middle].Start ) { if ( middle == min ) { *class = 0; error = TTO_Err_Not_Covered; break; } new_max = middle - 1; } else { if ( middle == max ) { *class = 0; error = TTO_Err_Not_Covered; break; } new_min = middle + 1; } } while ( min < max ); if ( index ) *index = middle; return error; } TT_Error Get_Class( TTO_ClassDefinition* cd, UShort glyphID, UShort* class, UShort* index ) { switch ( cd->ClassFormat ) { case 1: return Get_Class1( &cd->cd.cd1, glyphID, class, index ); case 2: return Get_Class2( &cd->cd.cd2, glyphID, class, index ); default: return TTO_Err_Invalid_SubTable_Format; } return TT_Err_Ok; /* never reached */ } /*************************** * Device related functions ***************************/ TT_Error Load_Device( TTO_Device* d, PFace input ) { DEFINE_LOAD_LOCALS( input->stream ); UShort n, count; UShort* dv; if ( ACCESS_Frame( 6L ) ) return error; d->StartSize = GET_UShort(); d->EndSize = GET_UShort(); d->DeltaFormat = GET_UShort(); FORGET_Frame(); if ( d->StartSize > d->EndSize || d->DeltaFormat == 0 || d->DeltaFormat > 3 ) return TTO_Err_Invalid_SubTable; d->DeltaValue = NULL; count = ( ( d->EndSize - d->StartSize + 1 ) >> ( 4 - d->DeltaFormat ) ) + 1; if ( ALLOC_ARRAY( d->DeltaValue, count, UShort ) ) return error; if ( ACCESS_Frame( count * 2L ) ) { FREE( d->DeltaValue ); return error; } dv = d->DeltaValue; for ( n = 0; n < count; n++ ) dv[n] = GET_UShort(); FORGET_Frame(); return TT_Err_Ok; } void Free_Device( TTO_Device* d ) { FREE( d->DeltaValue ); } /* Since we have the delta values stored in compressed form, we must uncompress it now. To simplify the interface, the function always returns a meaningful value in `value'; the error is just for information. | format = 1: 0011223344556677|8899101112131415|... | byte 1 byte 2 00: (byte >> 14) & mask 11: (byte >> 12) & mask ... mask = 0x0003 | format = 2: 0000111122223333|4444555566667777|... | byte 1 byte 2 0000: (byte >> 12) & mask 1111: (byte >> 8) & mask ... mask = 0x000F | format = 3: 0000000011111111|2222222233333333|... | byte 1 byte 2 00000000: (byte >> 8) & mask 11111111: (byte >> 0) & mask .... mask = 0x00FF */ TT_Error Get_Device( TTO_Device* d, UShort size, Short* value ) { UShort byte, bits, mask, f, s; f = d->DeltaFormat; if ( size >= d->StartSize && size <= d->EndSize ) { s = size - d->StartSize; byte = d->DeltaValue[s >> ( 4 - f )]; bits = byte >> ( 16 - ( s % ( 1 << ( 4 - f ) ) + 1 ) * ( 1 << f ) ); mask = 0xFFFF >> ( 16 - ( 1 << f ) ); *value = (Short)( bits & mask ); /* conversion to a signed value */ if ( *value >= ( ( mask + 1 ) >> 1 ) ) *value -= mask + 1; return TT_Err_Ok; } else { *value = 0; return TTO_Err_Not_Covered; } } /* END */