ref: 258951d7c53fa4d0e53da00ad3a4b399e147588d
dir: /src/pcf/pcfread.c/
/* pcfread.c FreeType font driver for pcf fonts Copyright 2000-2001 by Francesco Zappa Nardelli Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include <ft2build.h> #include FT_INTERNAL_DEBUG_H #include FT_INTERNAL_STREAM_H #include FT_INTERNAL_OBJECTS_H #include "pcf.h" #include "pcfdriver.h" #include "pcferror.h" #include <string.h> /* strlen(), strcpy() */ /*************************************************************************/ /* */ /* 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_pcfread #if defined( FT_DEBUG_LEVEL_TRACE ) static const char* tableNames[] = { "prop", "accl", "mtrcs", "bmps", "imtrcs", "enc", "swidth", "names", "accel" }; #endif static const FT_Frame_Field pcf_toc_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_TocRec FT_FRAME_START( 8 ), FT_FRAME_ULONG_LE( version ), FT_FRAME_ULONG_LE( count ), FT_FRAME_END }; static const FT_Frame_Field pcf_table_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_TableRec FT_FRAME_START( 16 ), FT_FRAME_ULONG_LE( type ), FT_FRAME_ULONG_LE( format ), FT_FRAME_ULONG_LE( size ), FT_FRAME_ULONG_LE( offset ), FT_FRAME_END }; static FT_Error pcf_read_TOC( FT_Stream stream, PCF_Face face ) { FT_Error error; PCF_Toc toc = &face->toc; PCF_Table tables; FT_Memory memory = FT_FACE(face)->memory; FT_UInt n; if ( FILE_Seek ( 0 ) || READ_Fields ( pcf_toc_header, toc ) ) return PCF_Err_Cannot_Open_Resource; if ( toc->version != PCF_FILE_VERSION ) return PCF_Err_Invalid_File_Format; if ( ALLOC( face->toc.tables, toc->count * sizeof ( PCF_TableRec ) ) ) return PCF_Err_Out_Of_Memory; tables = face->toc.tables; for ( n = 0; n < toc->count; n++ ) { if ( READ_Fields( pcf_table_header, tables ) ) goto Exit; tables++; } #if defined( FT_DEBUG_LEVEL_TRACE ) { FT_UInt i, j; const char* name = "?"; FT_TRACE4(( "Tables count: %ld\n", face->toc.count )); tables = face->toc.tables; for ( i = 0; i < toc->count; i++ ) { for( j = 0; j < sizeof ( tableNames ) / sizeof ( tableNames[0] ); j++ ) if ( tables[i].type == (FT_UInt)( 1 << j ) ) name = tableNames[j]; FT_TRACE4(( "Table %d: type=%-6s format=0x%04lX " "size=0x%06lX (%8ld) offset=0x%04lX\n", i, name, tables[i].format, tables[i].size, tables[i].size, tables[i].offset )); } } #endif return PCF_Err_Ok; Exit: FREE( face->toc.tables ); return error; } static const FT_Frame_Field pcf_metric_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_MetricRec FT_FRAME_START( 12 ), FT_FRAME_SHORT_LE( leftSideBearing ), FT_FRAME_SHORT_LE( rightSideBearing ), FT_FRAME_SHORT_LE( characterWidth ), FT_FRAME_SHORT_LE( ascent ), FT_FRAME_SHORT_LE( descent ), FT_FRAME_SHORT_LE( attributes ), FT_FRAME_END }; static const FT_Frame_Field pcf_metric_msb_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_MetricRec FT_FRAME_START( 12 ), FT_FRAME_SHORT( leftSideBearing ), FT_FRAME_SHORT( rightSideBearing ), FT_FRAME_SHORT( characterWidth ), FT_FRAME_SHORT( ascent ), FT_FRAME_SHORT( descent ), FT_FRAME_SHORT( attributes ), FT_FRAME_END }; static const FT_Frame_Field pcf_compressed_metric_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_Compressed_MetricRec FT_FRAME_START( 5 ), FT_FRAME_BYTE( leftSideBearing ), FT_FRAME_BYTE( rightSideBearing ), FT_FRAME_BYTE( characterWidth ), FT_FRAME_BYTE( ascent ), FT_FRAME_BYTE( descent ), FT_FRAME_END }; static FT_Error pcf_get_metric( FT_Stream stream, FT_ULong format, PCF_Metric metric ) { FT_Error error = PCF_Err_Ok; if ( PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) ) { const FT_Frame_Field* fields; /* parsing normal metrics */ fields = PCF_BYTE_ORDER( format ) == MSBFirst ? pcf_metric_msb_header : pcf_metric_header; /* the following sets 'error' but doesn't return in case of failure */ (void) READ_Fields( fields, metric ); } else { PCF_Compressed_MetricRec compr; /* parsing compressed metrics */ if ( READ_Fields( pcf_compressed_metric_header, &compr ) ) goto Exit; metric->leftSideBearing = (FT_Short)( compr.leftSideBearing - 0x80 ); metric->rightSideBearing = (FT_Short)( compr.rightSideBearing - 0x80 ); metric->characterWidth = (FT_Short)( compr.characterWidth - 0x80 ); metric->ascent = (FT_Short)( compr.ascent - 0x80 ); metric->descent = (FT_Short)( compr.descent - 0x80 ); metric->attributes = 0; } Exit: return error; } static FT_Error pcf_seek_to_table_type( FT_Stream stream, PCF_Table tables, FT_Int ntables, FT_ULong type, FT_ULong *aformat, FT_ULong *asize ) { FT_Error error; FT_Int i; for ( i = 0; i < ntables; i++ ) if ( tables[i].type == type ) { if ( stream->pos > tables[i].offset ) return PCF_Err_Invalid_Stream_Skip; if ( FILE_Skip( tables[i].offset - stream->pos ) ) return PCF_Err_Invalid_Stream_Skip; *asize = tables[i].size; /* unused - to be removed */ *aformat = tables[i].format; return PCF_Err_Ok; } FT_UNUSED( error ); return PCF_Err_Invalid_File_Format; } static FT_Bool pcf_has_table_type( PCF_Table tables, FT_Int ntables, FT_ULong type ) { FT_Int i; for ( i = 0; i < ntables; i++ ) if ( tables[i].type == type ) return TRUE; return FALSE; } static const FT_Frame_Field pcf_property_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_ParsePropertyRec FT_FRAME_START( 9 ), FT_FRAME_LONG_LE( name ), FT_FRAME_BYTE ( isString ), FT_FRAME_LONG_LE( value ), FT_FRAME_END }; static const FT_Frame_Field pcf_property_msb_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_ParsePropertyRec FT_FRAME_START( 9 ), FT_FRAME_LONG( name ), FT_FRAME_BYTE( isString ), FT_FRAME_LONG( value ), FT_FRAME_END }; static PCF_Property pcf_find_property( PCF_Face face, const FT_String* prop ) { PCF_Property properties = face->properties; FT_Bool found = 0; int i; for ( i = 0 ; i < face->nprops && !found; i++ ) { if ( !strcmp( properties[i].name, prop ) ) found = 1; } if ( found ) return properties + i - 1; else return NULL; } static FT_Error pcf_get_properties( FT_Stream stream, PCF_Face face ) { PCF_ParseProperty props = 0; PCF_Property properties = 0; FT_Int nprops, i; FT_ULong format, size; FT_Error error; FT_Memory memory = FT_FACE(face)->memory; FT_ULong string_size; FT_String* strings = 0; error = pcf_seek_to_table_type( stream, face->toc.tables, face->toc.count, PCF_PROPERTIES, &format, &size ); if ( error ) goto Bail; if ( READ_ULongLE( format ) ) goto Bail; FT_TRACE4(( "get_prop: format = %ld\n", format )); if ( !PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) ) goto Bail; if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_ULong( nprops ); else (void)READ_ULongLE( nprops ); if ( error ) goto Bail; FT_TRACE4(( "get_prop: nprop = %d\n", nprops )); if ( ALLOC( props, nprops * sizeof ( PCF_ParsePropertyRec ) ) ) goto Bail; for ( i = 0; i < nprops; i++ ) { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) { if ( READ_Fields( pcf_property_msb_header, props + i ) ) goto Bail; } else { if ( READ_Fields( pcf_property_header, props + i ) ) goto Bail; } } /* pad the property array */ /* */ /* clever here - nprops is the same as the number of odd-units read, */ /* as only isStringProp are odd length (Keith Packard) */ /* */ if ( nprops & 3 ) { i = 4 - ( nprops & 3 ); FT_Skip_Stream( stream, i ); } if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_ULong( string_size ); else (void)READ_ULongLE( string_size ); if ( error ) goto Bail; FT_TRACE4(( "get_prop: string_size = %ld\n", string_size )); if ( ALLOC( strings, string_size * sizeof ( char ) ) ) goto Bail; error = FT_Read_Stream( stream, (FT_Byte*)strings, string_size ); if ( error ) goto Bail; if ( ALLOC( properties, nprops * sizeof ( PCF_PropertyRec ) ) ) goto Bail; for ( i = 0; i < nprops; i++ ) { /* XXX: make atom */ if ( ALLOC( properties[i].name, ( strlen( strings + props[i].name ) + 1 ) * sizeof ( char ) ) ) goto Bail; strcpy( properties[i].name,strings + props[i].name ); properties[i].isString = props[i].isString; if ( props[i].isString ) { if ( ALLOC( properties[i].value.atom, ( strlen( strings + props[i].value ) + 1 ) * sizeof ( char ) ) ) goto Bail; strcpy( properties[i].value.atom, strings + props[i].value ); } else properties[i].value.integer = props[i].value; } face->properties = properties; face->nprops = nprops; FREE( props ); FREE( strings ); return PCF_Err_Ok; Bail: FREE( props ); FREE( strings ); return error; } static FT_Error pcf_get_metrics( FT_Stream stream, PCF_Face face ) { FT_Error error = PCF_Err_Ok; FT_Memory memory = FT_FACE(face)->memory; FT_ULong format = 0; FT_ULong size = 0; PCF_Metric metrics = 0; int i; int nmetrics = -1; error = pcf_seek_to_table_type( stream, face->toc.tables, face->toc.count, PCF_METRICS, &format, &size ); if ( error ) return error; error = READ_ULongLE( format ); if ( !PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) && !PCF_FORMAT_MATCH( format, PCF_COMPRESSED_METRICS ) ) return PCF_Err_Invalid_File_Format; if ( PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) ) { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_ULong( nmetrics ); else (void)READ_ULongLE( nmetrics ); } else { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_UShort( nmetrics ); else (void)READ_UShortLE( nmetrics ); } if ( error || nmetrics == -1 ) return PCF_Err_Invalid_File_Format; face->nmetrics = nmetrics; if ( ALLOC( face->metrics, nmetrics * sizeof ( PCF_MetricRec ) ) ) return PCF_Err_Out_Of_Memory; metrics = face->metrics; for ( i = 0; i < nmetrics; i++ ) { pcf_get_metric( stream, format, metrics + i ); metrics[i].bits = 0; FT_TRACE4(( "%d : width=%d, " "lsb=%d, rsb=%d, ascent=%d, descent=%d, swidth=%d\n", i, ( metrics + i )->characterWidth, ( metrics + i )->leftSideBearing, ( metrics + i )->rightSideBearing, ( metrics + i )->ascent, ( metrics + i )->descent, ( metrics + i )->attributes )); if ( error ) break; } if ( error ) FREE( face->metrics ); return error; } static FT_Error pcf_get_bitmaps( FT_Stream stream, PCF_Face face ) { FT_Error error = PCF_Err_Ok; FT_Memory memory = FT_FACE(face)->memory; FT_Long* offsets; FT_Long bitmapSizes[GLYPHPADOPTIONS]; FT_ULong format, size; int nbitmaps, i, sizebitmaps = 0; char* bitmaps; error = pcf_seek_to_table_type( stream, face->toc.tables, face->toc.count, PCF_BITMAPS, &format, &size ); if ( error ) return error; error = FT_Access_Frame( stream, 8 ); if ( error ) return error; format = GET_ULongLE(); if ( PCF_BYTE_ORDER( format ) == MSBFirst ) nbitmaps = GET_ULong(); else nbitmaps = GET_ULongLE(); FT_Forget_Frame( stream ); if ( !PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) ) return PCF_Err_Invalid_File_Format; if ( nbitmaps != face->nmetrics ) return PCF_Err_Invalid_File_Format; if ( ALLOC( offsets, nbitmaps * sizeof ( FT_ULong ) ) ) return error; for ( i = 0; i < nbitmaps; i++ ) { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_Long( offsets[i] ); else (void)READ_LongLE( offsets[i] ); FT_TRACE4(( "bitmap %d is at offset %ld\n", i, offsets[i] )); } if ( error ) goto Bail; for ( i = 0; i < GLYPHPADOPTIONS; i++ ) { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) (void)READ_Long( bitmapSizes[i] ); else (void)READ_LongLE( bitmapSizes[i] ); if ( error ) goto Bail; sizebitmaps = bitmapSizes[PCF_GLYPH_PAD_INDEX( format )]; FT_TRACE4(( "padding %d implies a size of %ld\n", i, bitmapSizes[i] )); } FT_TRACE4(( " %d bitmaps, padding index %ld\n", nbitmaps, PCF_GLYPH_PAD_INDEX( format ) )); FT_TRACE4(( "bitmap size = %d\n", sizebitmaps )); FT_UNUSED( sizebitmaps ); /* only used for debugging */ for ( i = 0; i < nbitmaps; i++ ) face->metrics[i].bits = stream->pos + offsets[i]; face->bitmapsFormat = format; FREE ( offsets ); return error; Bail: FREE ( offsets ); FREE ( bitmaps ); return error; } static FT_Error pcf_get_encodings( FT_Stream stream, PCF_Face face ) { FT_Error error = PCF_Err_Ok; FT_Memory memory = FT_FACE(face)->memory; FT_ULong format, size; int firstCol, lastCol; int firstRow, lastRow; int nencoding, encodingOffset; int i, j; PCF_Encoding tmpEncoding, encoding = 0; error = pcf_seek_to_table_type( stream, face->toc.tables, face->toc.count, PCF_BDF_ENCODINGS, &format, &size ); if ( error ) return error; error = FT_Access_Frame( stream, 14 ); if ( error ) return error; format = GET_ULongLE(); if ( PCF_BYTE_ORDER( format ) == MSBFirst ) { firstCol = GET_Short(); lastCol = GET_Short(); firstRow = GET_Short(); lastRow = GET_Short(); face->defaultChar = GET_Short(); } else { firstCol = GET_ShortLE(); lastCol = GET_ShortLE(); firstRow = GET_ShortLE(); lastRow = GET_ShortLE(); face->defaultChar = GET_ShortLE(); } FT_Forget_Frame( stream ); if ( !PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) ) return PCF_Err_Invalid_File_Format; FT_TRACE4(( "enc: firstCol %d, lastCol %d, firstRow %d, lastRow %d\n", firstCol, lastCol, firstRow, lastRow )); nencoding = ( lastCol - firstCol + 1 ) * ( lastRow - firstRow + 1 ); if ( ALLOC( tmpEncoding, nencoding * sizeof ( PCF_EncodingRec ) ) ) return PCF_Err_Out_Of_Memory; error = FT_Access_Frame( stream, 2 * nencoding ); if ( error ) goto Bail; for ( i = 0, j = 0 ; i < nencoding; i++ ) { if ( PCF_BYTE_ORDER( format ) == MSBFirst ) encodingOffset = GET_Short(); else encodingOffset = GET_ShortLE(); if ( encodingOffset != -1 ) { tmpEncoding[j].enc = ( ( ( i / ( lastCol - firstCol + 1 ) ) + firstRow ) * 256 ) + ( ( i % ( lastCol - firstCol + 1 ) ) + firstCol ); tmpEncoding[j].glyph = (FT_Short)encodingOffset; j++; } FT_TRACE4(( "enc n. %d ; Uni %ld ; Glyph %d\n", i, tmpEncoding[j - 1].enc, encodingOffset )); } FT_Forget_Frame( stream ); if ( ALLOC( encoding, (--j) * sizeof ( PCF_EncodingRec ) ) ) goto Bail; for ( i = 0; i < j; i++ ) { encoding[i].enc = tmpEncoding[i].enc; encoding[i].glyph = tmpEncoding[i].glyph; } face->nencodings = j; face->encodings = encoding; FREE( tmpEncoding ); return error; Bail: FREE( encoding ); FREE( tmpEncoding ); return error; } static const FT_Frame_Field pcf_accel_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_AccelRec FT_FRAME_START( 20 ), FT_FRAME_BYTE ( noOverlap ), FT_FRAME_BYTE ( constantMetrics ), FT_FRAME_BYTE ( terminalFont ), FT_FRAME_BYTE ( constantWidth ), FT_FRAME_BYTE ( inkInside ), FT_FRAME_BYTE ( inkMetrics ), FT_FRAME_BYTE ( drawDirection ), FT_FRAME_SKIP_BYTES( 1 ), FT_FRAME_LONG_LE ( fontAscent ), FT_FRAME_LONG_LE ( fontDescent ), FT_FRAME_LONG_LE ( maxOverlap ), FT_FRAME_END }; static const FT_Frame_Field pcf_accel_msb_header[] = { #undef FT_STRUCTURE #define FT_STRUCTURE PCF_AccelRec FT_FRAME_START( 20 ), FT_FRAME_BYTE ( noOverlap ), FT_FRAME_BYTE ( constantMetrics ), FT_FRAME_BYTE ( terminalFont ), FT_FRAME_BYTE ( constantWidth ), FT_FRAME_BYTE ( inkInside ), FT_FRAME_BYTE ( inkMetrics ), FT_FRAME_BYTE ( drawDirection ), FT_FRAME_SKIP_BYTES( 1 ), FT_FRAME_LONG ( fontAscent ), FT_FRAME_LONG ( fontDescent ), FT_FRAME_LONG ( maxOverlap ), FT_FRAME_END }; static FT_Error pcf_get_accel( FT_Stream stream, PCF_Face face, FT_ULong type ) { FT_ULong format, size; FT_Error error = PCF_Err_Ok; PCF_Accel accel = &face->accel; error = pcf_seek_to_table_type( stream, face->toc.tables, face->toc.count, type, &format, &size ); if ( error ) goto Bail; error = READ_ULongLE( format ); if ( !PCF_FORMAT_MATCH( format, PCF_DEFAULT_FORMAT ) && !PCF_FORMAT_MATCH( format, PCF_ACCEL_W_INKBOUNDS ) ) goto Bail; if ( PCF_BYTE_ORDER( format ) == MSBFirst ) { if ( READ_Fields( pcf_accel_msb_header, accel ) ) goto Bail; } else { if ( READ_Fields( pcf_accel_header, accel ) ) goto Bail; } error = pcf_get_metric( stream, format, &(accel->minbounds) ); if ( error ) goto Bail; error = pcf_get_metric( stream, format, &(accel->maxbounds) ); if ( error ) goto Bail; if ( PCF_FORMAT_MATCH( format, PCF_ACCEL_W_INKBOUNDS ) ) { error = pcf_get_metric( stream, format, &(accel->ink_minbounds) ); if ( error ) goto Bail; error = pcf_get_metric( stream, format, &(accel->ink_maxbounds) ); if ( error ) goto Bail; } else { accel->ink_minbounds = accel->minbounds; /* I'm not sure about this */ accel->ink_maxbounds = accel->maxbounds; } return error; Bail: return error; } FT_LOCAL_DEF FT_Error pcf_load_font( FT_Stream stream, PCF_Face face ) { FT_Error error = PCF_Err_Ok; FT_Memory memory = FT_FACE(face)->memory; FT_Bool hasBDFAccelerators; error = pcf_read_TOC( stream, face ); if ( error ) return error; error = pcf_get_properties( stream, face ); if ( error ) return error;; /* Use the old accelerators if no BDF accelerators are in the file. */ hasBDFAccelerators = pcf_has_table_type( face->toc.tables, face->toc.count, PCF_BDF_ACCELERATORS ); if ( !hasBDFAccelerators ) { error = pcf_get_accel( stream, face, PCF_ACCELERATORS ); if ( error ) goto Bail; } /* metrics */ error = pcf_get_metrics( stream, face ); if ( error ) goto Bail; /* bitmaps */ error = pcf_get_bitmaps( stream, face ); if ( error ) goto Bail; /* encodings */ error = pcf_get_encodings( stream, face ); if ( error ) goto Bail; /* BDF style accelerators (i.e. bounds based on encoded glyphs) */ if ( hasBDFAccelerators ) { error = pcf_get_accel( stream, face, PCF_BDF_ACCELERATORS ); if ( error ) goto Bail; } /* XXX: TO DO: inkmetrics and glyph_names are missing */ /* now construct the face object */ { FT_Face root = FT_FACE( face ); PCF_Property prop; int size_set = 0; root->num_faces = 1; root->face_index = 0; root->face_flags = FT_FACE_FLAG_FIXED_SIZES | FT_FACE_FLAG_HORIZONTAL | FT_FACE_FLAG_FAST_GLYPHS; if ( face->accel.constantWidth ) root->face_flags |= FT_FACE_FLAG_FIXED_WIDTH; root->style_flags = 0; prop = pcf_find_property( face, "SLANT" ); if ( prop != NULL ) if ( prop->isString ) if ( ( *(prop->value.atom) == 'O' ) || ( *(prop->value.atom) == 'I' ) ) root->style_flags |= FT_STYLE_FLAG_ITALIC; prop = pcf_find_property( face, "WEIGHT_NAME" ); if ( prop != NULL ) if ( prop->isString ) if ( *(prop->value.atom) == 'B' ) root->style_flags |= FT_STYLE_FLAG_BOLD; root->style_name = (char *)"Regular"; if ( root->style_flags & FT_STYLE_FLAG_BOLD ) { if ( root->style_flags & FT_STYLE_FLAG_ITALIC ) root->style_name = (char *)"Bold Italic"; else root->style_name = (char *)"Bold"; } else if ( root->style_flags & FT_STYLE_FLAG_ITALIC ) root->style_name = (char *)"Italic"; prop = pcf_find_property( face, "FAMILY_NAME" ); if ( prop != NULL ) { if ( prop->isString ) { int l = strlen( prop->value.atom ) + 1; if ( ALLOC( root->family_name, l * sizeof ( char ) ) ) goto Bail; strcpy( root->family_name, prop->value.atom ); } } else root->family_name = 0; root->num_glyphs = face->nmetrics; root->num_fixed_sizes = 1; if ( ALLOC_ARRAY( root->available_sizes, 1, FT_Bitmap_Size ) ) goto Bail; prop = pcf_find_property( face, "PIXEL_SIZE" ); if ( prop != NULL ) { root->available_sizes->height = root->available_sizes->width = (FT_Short)( prop->value.integer ); #if 0 /* average width property support removed until maturation */ prop = pcf_find_property( face, "AVERAGE_WIDTH" ); if ( prop != NULL ) root->available_sizes->width = (FT_Short)( prop->value.integer / 10 ); #endif size_set = 1; } else { prop = pcf_find_property( face, "POINT_SIZE" ); if ( prop != NULL ) { PCF_Property xres, yres, avgw; xres = pcf_find_property( face, "RESOLUTION_X" ); yres = pcf_find_property( face, "RESOLUTION_Y" ); avgw = pcf_find_property( face, "AVERAGE_WIDTH" ); if ( ( yres != NULL ) && ( xres != NULL ) ) { root->available_sizes->height = (FT_Short)( prop->value.integer * yres->value.integer / 720 ); #if 0 /* average width property support removed until maturation */ if ( avgw != NULL ) root->available_sizes->width = (FT_Short)( avgw->value.integer / 10 ); else #endif root->available_sizes->width = (FT_Short)( prop->value.integer * xres->value.integer / 720 ); size_set = 1; } } } if (size_set == 0 ) { #if 0 printf( "PCF Warning: Pixel Size undefined, assuming 12\n"); #endif root->available_sizes->width = 12; root->available_sizes->height = 12; } /* XXX: charmaps. For now, report unicode for Unicode and Latin 1 */ root->charmaps = &face->charmap_handle; root->num_charmaps = 1; face->charmap.encoding = ft_encoding_none; face->charmap.platform_id = 0; face->charmap.encoding_id = 0; { PCF_Property charset_registry = 0, charset_encoding = 0; charset_registry = pcf_find_property( face, "CHARSET_REGISTRY" ); charset_encoding = pcf_find_property( face, "CHARSET_ENCODING" ); if ( ( charset_registry != NULL ) && ( charset_encoding != NULL ) ) { if ( ( charset_registry->isString ) && ( charset_encoding->isString ) ) { if ( ALLOC( face->charset_encoding, ( strlen( charset_encoding->value.atom ) + 1 ) * sizeof ( char ) ) ) goto Bail; if ( ALLOC( face->charset_registry, ( strlen( charset_registry->value.atom ) + 1 ) * sizeof ( char ) ) ) goto Bail; strcpy( face->charset_registry, charset_registry->value.atom ); strcpy( face->charset_encoding, charset_encoding->value.atom ); if ( !strcmp( face->charset_registry, "ISO10646" ) || ( !strcmp( face->charset_registry, "ISO8859" ) && !strcmp( face->charset_encoding, "1" ) ) ) { face->charmap.encoding = ft_encoding_unicode; face->charmap.platform_id = 3; face->charmap.encoding_id = 1; } } } } face->charmap.face = root; face->charmap_handle = &face->charmap; root->charmap = face->charmap_handle; } return PCF_Err_Ok; Bail: return PCF_Err_Invalid_File_Format; } /* END */