ref: ac4cd9516e233849d2e519a63e4fad9ec8067709
dir: /src/sfnt/ttcmap.c/
/***************************************************************************/ /* */ /* ttcmap.c */ /* */ /* TrueType character mapping table (cmap) support (body). */ /* */ /* Copyright 1996-2000 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 <freetype/internal/ftdebug.h> #include <freetype/internal/tterrors.h> #ifdef FT_FLAT_COMPILE #include "ttload.h" #include "ttcmap.h" #else #include <sfnt/ttload.h> #include <sfnt/ttcmap.h> #endif /*************************************************************************/ /* */ /* The macro FT_COMPONENT is used in trace mode. It is an implicit */ /* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log */ /* messages during execution. */ /* */ #undef FT_COMPONENT #define FT_COMPONENT trace_ttcmap FT_CALLBACK_DEF FT_UInt code_to_index0( TT_CMapTable* charmap, FT_ULong char_code ); FT_CALLBACK_DEF FT_UInt code_to_index2( TT_CMapTable* charmap, FT_ULong char_code ); FT_CALLBACK_DEF FT_UInt code_to_index4( TT_CMapTable* charmap, FT_ULong char_code ); FT_CALLBACK_DEF FT_UInt code_to_index6( TT_CMapTable* charmap, FT_ULong char_code ); /*************************************************************************/ /* */ /* <Function> */ /* TT_CharMap_Load */ /* */ /* <Description> */ /* Loads a given TrueType character map into memory. */ /* */ /* <Input> */ /* face :: A handle to the parent face object. */ /* stream :: A handle to the current stream object. */ /* */ /* <InOut> */ /* table :: A pointer to a cmap object. */ /* */ /* <Return> */ /* FreeType error code. 0 means success. */ /* */ /* <Note> */ /* The function assumes that the stream is already in use (i.e., */ /* opened). In case of error, all partially allocated tables are */ /* released. */ /* */ FT_LOCAL_DEF FT_Error TT_CharMap_Load( TT_Face face, TT_CMapTable* cmap, FT_Stream stream ) { FT_Error error; FT_Memory memory; FT_UShort num_SH, num_Seg, i; FT_UShort u, l; TT_CMap0* cmap0; TT_CMap2* cmap2; TT_CMap4* cmap4; TT_CMap6* cmap6; TT_CMap2SubHeader* cmap2sub; TT_CMap4Segment* segments; if ( cmap->loaded ) return TT_Err_Ok; memory = stream->memory; if ( FILE_Seek( cmap->offset ) ) return error; switch ( cmap->format ) { case 0: cmap0 = &cmap->c.cmap0; if ( ALLOC( cmap0->glyphIdArray, 256L ) || FILE_Read( cmap0->glyphIdArray, 256L ) ) goto Fail; cmap->get_index = code_to_index0; break; case 2: num_SH = 0; cmap2 = &cmap->c.cmap2; /* allocate subheader keys */ if ( ALLOC_ARRAY( cmap2->subHeaderKeys, 256, FT_UShort ) || ACCESS_Frame( 512L ) ) goto Fail; for ( i = 0; i < 256; i++ ) { u = GET_UShort() / 8; cmap2->subHeaderKeys[i] = u; if ( num_SH < u ) num_SH = u; } FORGET_Frame(); /* load subheaders */ cmap2->numGlyphId = l = ( ( cmap->length - 2L * ( 256 + 3 ) - num_SH * 8L ) & 0xFFFF ) / 2; if ( ALLOC_ARRAY( cmap2->subHeaders, num_SH + 1, TT_CMap2SubHeader ) || ACCESS_Frame( ( num_SH + 1 ) * 8L ) ) goto Fail; cmap2sub = cmap2->subHeaders; for ( i = 0; i <= num_SH; i++ ) { cmap2sub->firstCode = GET_UShort(); cmap2sub->entryCount = GET_UShort(); cmap2sub->idDelta = GET_Short(); /* we apply the location offset immediately */ cmap2sub->idRangeOffset = GET_UShort() - ( num_SH - i ) * 8 - 2; cmap2sub++; } FORGET_Frame(); /* load glyph IDs */ if ( ALLOC_ARRAY( cmap2->glyphIdArray, l, FT_UShort ) || ACCESS_Frame( l * 2L ) ) goto Fail; for ( i = 0; i < l; i++ ) cmap2->glyphIdArray[i] = GET_UShort(); FORGET_Frame(); cmap->get_index = code_to_index2; break; case 4: cmap4 = &cmap->c.cmap4; /* load header */ if ( ACCESS_Frame( 8L ) ) goto Fail; cmap4->segCountX2 = GET_UShort(); cmap4->searchRange = GET_UShort(); cmap4->entrySelector = GET_UShort(); cmap4->rangeShift = GET_UShort(); num_Seg = cmap4->segCountX2 / 2; FORGET_Frame(); /* load segments */ if ( ALLOC_ARRAY( cmap4->segments, num_Seg, TT_CMap4Segment ) || ACCESS_Frame( ( num_Seg * 4 + 1 ) * 2L ) ) goto Fail; segments = cmap4->segments; for ( i = 0; i < num_Seg; i++ ) segments[i].endCount = GET_UShort(); (void)GET_UShort(); for ( i = 0; i < num_Seg; i++ ) segments[i].startCount = GET_UShort(); for ( i = 0; i < num_Seg; i++ ) segments[i].idDelta = GET_Short(); for ( i = 0; i < num_Seg; i++ ) segments[i].idRangeOffset = GET_UShort(); FORGET_Frame(); cmap4->numGlyphId = l = ( ( cmap->length - ( 16L + 8L * num_Seg ) ) & 0xFFFF ) / 2; /* load IDs */ if ( ALLOC_ARRAY( cmap4->glyphIdArray, l, FT_UShort ) || ACCESS_Frame( l * 2L ) ) goto Fail; for ( i = 0; i < l; i++ ) cmap4->glyphIdArray[i] = GET_UShort(); FORGET_Frame(); cmap->get_index = code_to_index4; cmap4->last_segment = cmap4->segments; break; case 6: cmap6 = &cmap->c.cmap6; if ( ACCESS_Frame( 4L ) ) goto Fail; cmap6->firstCode = GET_UShort(); cmap6->entryCount = GET_UShort(); FORGET_Frame(); l = cmap6->entryCount; if ( ALLOC_ARRAY( cmap6->glyphIdArray, cmap6->entryCount, FT_Short ) || ACCESS_Frame( l * 2L ) ) goto Fail; for ( i = 0; i < l; i++ ) cmap6->glyphIdArray[i] = GET_UShort(); FORGET_Frame(); cmap->get_index = code_to_index6; break; default: /* corrupt character mapping table */ return TT_Err_Invalid_CharMap_Format; } return TT_Err_Ok; Fail: TT_CharMap_Free( face, cmap ); return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_CharMap_Free */ /* */ /* <Description> */ /* Destroys a character mapping table. */ /* */ /* <Input> */ /* face :: A handle to the parent face object. */ /* cmap :: A handle to a cmap object. */ /* */ /* <Return> */ /* FreeType error code. 0 means success. */ /* */ FT_LOCAL_DEF FT_Error TT_CharMap_Free( TT_Face face, TT_CMapTable* cmap ) { FT_Memory memory; if ( !cmap ) return TT_Err_Ok; memory = face->root.driver->root.memory; switch ( cmap->format ) { case 0: FREE( cmap->c.cmap0.glyphIdArray ); break; case 2: FREE( cmap->c.cmap2.subHeaderKeys ); FREE( cmap->c.cmap2.subHeaders ); FREE( cmap->c.cmap2.glyphIdArray ); break; case 4: FREE( cmap->c.cmap4.segments ); FREE( cmap->c.cmap4.glyphIdArray ); cmap->c.cmap4.segCountX2 = 0; break; case 6: FREE( cmap->c.cmap6.glyphIdArray ); cmap->c.cmap6.entryCount = 0; break; default: /* invalid table format, do nothing */ ; } cmap->loaded = FALSE; return TT_Err_Ok; } /*************************************************************************/ /* */ /* <Function> */ /* code_to_index0 */ /* */ /* <Description> */ /* Converts the character code into a glyph index. Uses format 0. */ /* `charCode' must be in the range 0x00-0xFF (otherwise 0 is */ /* returned). */ /* */ /* <Input> */ /* charCode :: The wanted character code. */ /* cmap0 :: A pointer to a cmap table in format 0. */ /* */ /* <Return> */ /* Glyph index into the glyphs array. 0 if the glyph does not exist. */ /* */ FT_CALLBACK_DEF FT_UInt code_to_index0( TT_CMapTable* cmap, FT_ULong charCode ) { TT_CMap0* cmap0 = &cmap->c.cmap0; return ( charCode <= 0xFF ? cmap0->glyphIdArray[charCode] : 0 ); } /*************************************************************************/ /* */ /* <Function> */ /* code_to_index2 */ /* */ /* <Description> */ /* Converts the character code into a glyph index. Uses format 2. */ /* */ /* <Input> */ /* charCode :: The wanted character code. */ /* cmap2 :: A pointer to a cmap table in format 2. */ /* */ /* <Return> */ /* Glyph index into the glyphs array. 0 if the glyph does not exist. */ /* */ FT_CALLBACK_DEF FT_UInt code_to_index2( TT_CMapTable* cmap, FT_ULong charCode ) { FT_UInt result, index1, offset; FT_UInt char_lo; FT_ULong char_hi; TT_CMap2SubHeader* sh2; TT_CMap2* cmap2; cmap2 = &cmap->c.cmap2; result = 0; char_lo = (FT_UInt)( charCode & 0xFF ); char_hi = charCode >> 8; if ( char_hi == 0 ) { /* an 8-bit character code -- we use the subHeader 0 in this case */ /* to test whether the character code is in the charmap */ if ( cmap2->subHeaderKeys[char_lo] == 0 ) result = cmap2->glyphIdArray[char_lo]; } else { /* a 16-bit character code */ index1 = cmap2->subHeaderKeys[char_hi & 0xFF]; if ( index1 ) { sh2 = cmap2->subHeaders + index1; char_lo -= sh2->firstCode; if ( char_lo < (FT_UInt)sh2->entryCount ) { offset = sh2->idRangeOffset / 2 + char_lo; if ( offset < (FT_UInt)cmap2->numGlyphId ) { result = cmap2->glyphIdArray[offset]; if ( result ) result = ( result + sh2->idDelta ) & 0xFFFF; } } } } return result; } /*************************************************************************/ /* */ /* <Function> */ /* code_to_index4 */ /* */ /* <Description> */ /* Converts the character code into a glyph index. Uses format 4. */ /* */ /* <Input> */ /* charCode :: The wanted character code. */ /* cmap4 :: A pointer to a cmap table in format 4. */ /* */ /* <Return> */ /* Glyph index into the glyphs array. 0 if the glyph does not exist. */ /* */ FT_CALLBACK_DEF FT_UInt code_to_index4( TT_CMapTable* cmap, FT_ULong charCode ) { FT_UInt result, index1, segCount; TT_CMap4* cmap4; TT_CMap4Segment *seg4, *limit; cmap4 = &cmap->c.cmap4; result = 0; segCount = cmap4->segCountX2 / 2; seg4 = cmap4->segments; limit = seg4 + segCount; /* check against the last segment */ seg4 = cmap4->last_segment; /* the following is equivalent to performing two tests, as in */ /* */ /* if ( charCode >= seg4->startCount && charCode <= seg4->endCount ) */ /* */ /* Yes, that's a bit strange, but it's faster, and the idea behind */ /* the cache is to significantly speed up charcode to glyph index */ /* conversion. */ if ( (FT_ULong)(charCode - seg4->startCount) < (FT_ULong)(seg4->endCount - seg4->startCount) ) goto Found; for ( seg4 = cmap4->segments; seg4 < limit; seg4++ ) { /* the ranges are sorted in increasing order. If we are out of */ /* the range here, the char code isn't in the charmap, so exit. */ if ( charCode > (FT_UInt)seg4->endCount ) continue; if ( charCode >= (FT_UInt)seg4->startCount ) goto Found; } return 0; Found: cmap4->last_segment = seg4; /* if the idRangeOffset is 0, we can compute the glyph index */ /* directly */ if ( seg4->idRangeOffset == 0 ) result = ( charCode + seg4->idDelta ) & 0xFFFF; else { /* otherwise, we must use the glyphIdArray to do it */ index1 = seg4->idRangeOffset / 2 + ( charCode - seg4->startCount ) + ( seg4 - cmap4->segments ) - segCount; if ( index1 < (FT_UInt)cmap4->numGlyphId && cmap4->glyphIdArray[index1] != 0 ) result = ( cmap4->glyphIdArray[index1] + seg4->idDelta ) & 0xFFFF; } return result; } /*************************************************************************/ /* */ /* <Function> */ /* code_to_index6 */ /* */ /* <Description> */ /* Converts the character code into a glyph index. Uses format 6. */ /* */ /* <Input> */ /* charCode :: The wanted character code. */ /* cmap6 :: A pointer to a cmap table in format 6. */ /* */ /* <Return> */ /* Glyph index into the glyphs array. 0 if the glyph does not exist. */ /* */ FT_CALLBACK_DEF FT_UInt code_to_index6( TT_CMapTable* cmap, FT_ULong charCode ) { TT_CMap6* cmap6; FT_UInt result = 0; cmap6 = &cmap->c.cmap6; result = 0; charCode -= cmap6->firstCode; if ( charCode < (FT_UInt)cmap6->entryCount ) result = cmap6->glyphIdArray[charCode]; return result; } /* END */