ref: c75f71e04995f1cc42fe11d092f0b0a63997e43c
dir: /src/sfnt/ttsbit.c/
/***************************************************************************/ /* */ /* ttsbit.c */ /* */ /* TrueType and OpenType embedded bitmap support (body). */ /* */ /* 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. */ /* */ /* */ /* WARNING: This file should not be compiled directly, it is meant to be */ /* included in the source of several font drivers (i.e., the TTF */ /* and OTF drivers). */ /* */ /***************************************************************************/ #include <ftdebug.h> #include <ttsbit.h> #include <tttags.h> #include <tterrors.h> /*************************************************************************/ /* */ /* <Function> */ /* blit_sbit */ /* */ /* <Description> */ /* Blits a bitmap from an input stream into a given target. Supports */ /* x and y offsets as well as byte padded lines. */ /* */ /* <Input> */ /* target :: The target bitmap/pixmap. */ /* */ /* source :: The input packed bitmap data. */ /* */ /* line_bits :: The number of bits per line. */ /* */ /* byte_padded :: A flag which is true if lines are byte-padded. */ /* */ /* x_offset :: The horizontal offset. */ /* */ /* y_offset :: The vertical offset. */ /* */ /* <Note> */ /* IMPORTANT: The x and y offsets are relative to the top corner of */ /* the target bitmap (unlike the normal TrueType */ /* convention). A positive y offset indicates a downwards */ /* direction! */ /* */ static void blit_sbit( FT_Bitmap* target, char* source, FT_Int line_bits, FT_Bool byte_padded, FT_Int x_offset, FT_Int y_offset ) { FT_Byte* line_buff; FT_Int line_incr; FT_Int height; FT_UShort acc; FT_Byte loaded; /* first of all, compute starting write position */ line_incr = target->pitch; line_buff = target->buffer; if (line_incr < 0) line_buff -= line_incr*(target->rows-1); line_buff += (x_offset >> 3) + y_offset * line_incr; /***********************************************************************/ /* */ /* We use the extra-classic `accumulator' trick to extract the bits */ /* from the source byte stream. */ /* */ /* Namely, the variable `acc' is a 16-bit accumulator containing the */ /* last `loaded' bits from the input stream. The bits are shifted to */ /* the upmost position in `acc'. */ /* */ /***********************************************************************/ acc = 0; /* clear accumulator */ loaded = 0; /* no bits were loaded */ for ( height = target->rows; height > 0; height-- ) { FT_Byte* cur = line_buff; /* current write cursor */ FT_Int count = line_bits; /* # of bits to extract per line */ FT_Byte shift = x_offset & 7; /* current write shift */ FT_Byte space = 8 - shift; /* first of all, read individual source bytes */ if ( count >= 8 ) { count -= 8; { do { FT_Byte val; /* ensure that there are at least 8 bits in the accumulator */ if ( loaded < 8 ) { acc |= ((FT_UShort)*source++) << (8 - loaded); loaded += 8; } /* now write one byte */ val = (FT_Byte)(acc >> 8); if (shift) { cur[0] |= val >> shift; cur[1] |= val << space; } else cur[0] = val; cur++; acc <<= 8; /* remove bits from accumulator */ loaded -= 8; count -= 8; } while ( count >= 0 ); } /* restore `count' to correct value */ count += 8; } /* now write remaining bits (count < 8) */ if ( count > 0 ) { FT_Byte val; /* ensure that there are at least `count' bits in the accumulator */ if ( loaded < count ) { acc |= ((FT_UShort)*source++) << (8 - loaded); loaded += 8; } /* now write remaining bits */ val = ((FT_Byte)(acc >> 8)) & ~(0xFF >> count); cur[0] |= val >> shift; if ( count > space ) cur[1] |= val << space; acc <<= count; loaded -= count; } /* now, skip to next line */ if ( byte_padded ) acc = loaded = 0; /* clear accumulator on byte-padded lines */ line_buff += line_incr; } } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_Small_SBit_Metrics */ /* */ /* <Description> */ /* Loads a small bitmap metrics record. */ /* */ /* <Input> */ /* stream :: The input stream. */ /* */ /* <Output> */ /* metrics :: A small metrics structure. */ /* */ static void TT_Load_Small_SBit_Metrics( TT_SBit_Small_Metrics* metrics, FT_Stream stream ) { metrics->height = GET_Byte(); metrics->width = GET_Byte(); metrics->bearingX = GET_Char(); metrics->bearingY = GET_Char(); metrics->advance = GET_Byte(); } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Metrics */ /* */ /* <Description> */ /* Loads a bitmap metrics record. */ /* */ /* <Input> */ /* stream :: The input stream. */ /* */ /* <Output> */ /* metrics :: A metrics structure. */ /* */ static void TT_Load_SBit_Metrics( TT_SBit_Metrics* metrics, FT_Stream stream ) { metrics->height = GET_Byte(); metrics->width = GET_Byte(); metrics->horiBearingX = GET_Char(); metrics->horiBearingY = GET_Char(); metrics->horiAdvance = GET_Byte(); metrics->vertBearingX = GET_Char(); metrics->vertBearingY = GET_Char(); metrics->vertAdvance = GET_Byte(); } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Line_Metrics */ /* */ /* <Description> */ /* Loads a bitmap line metrics record. */ /* */ /* <Input> */ /* stream :: The input stream. */ /* */ /* <Output> */ /* metrics :: A line metrics structure. */ /* */ static void TT_Load_SBit_Line_Metrics( TT_SBit_Line_Metrics* metrics, FT_Stream stream ) { metrics->ascender = GET_Char(); metrics->descender = GET_Char(); metrics->max_width = GET_Byte(); metrics->caret_slope_numerator = GET_Char(); metrics->caret_slope_denominator = GET_Char(); metrics->caret_offset = GET_Char(); metrics->min_origin_SB = GET_Char(); metrics->min_advance_SB = GET_Char(); metrics->max_before_BL = GET_Char(); metrics->min_after_BL = GET_Char(); metrics->pads[0] = GET_Char(); metrics->pads[1] = GET_Char(); } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Const_Metrics */ /* */ /* <Description> */ /* Loads the metrics for `EBLC' index tables format 2 and 5. */ /* */ /* <Input> */ /* range :: The target range. */ /* */ /* stream :: The input stream. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. */ /* */ static TT_Error Load_SBit_Const_Metrics( TT_SBit_Range* range, FT_Stream stream ) { TT_Error error; if ( !ACCESS_Frame( 12L ) ) { range->image_size = GET_ULong(); TT_Load_SBit_Metrics( &range->metrics, stream ); FORGET_Frame(); } return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Range_Codes */ /* */ /* <Description> */ /* Loads the range codes for `EBLC' index tables format 4 and 5. */ /* */ /* <Input> */ /* range :: The target range. */ /* */ /* stream :: The input stream. */ /* */ /* load_offsets :: A flag whether to load the glyph offset table. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. */ /* */ static TT_Error Load_SBit_Range_Codes( TT_SBit_Range* range, FT_Stream stream, TT_Bool load_offsets ) { TT_Error error; TT_ULong count, n, size; FT_Memory memory = stream->memory; if ( READ_ULong( count ) ) goto Exit; range->num_glyphs = count; /* Allocate glyph offsets table if needed */ if ( load_offsets ) { if ( ALLOC_ARRAY( range->glyph_offsets, count, TT_ULong ) ) goto Exit; size = count * 4L; } else size = count * 2L; /* Allocate glyph codes table and access frame */ if ( ALLOC_ARRAY ( range->glyph_codes, count, TT_UShort ) || ACCESS_Frame( size ) ) goto Exit; for ( n = 0; n < count; n++ ) { range->glyph_codes[n] = GET_UShort(); if (load_offsets) range->glyph_offsets[n] = (TT_ULong)range->image_offset + GET_UShort(); } FORGET_Frame(); Exit: return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Range */ /* */ /* <Description> */ /* Loads a given `EBLC' index/range table. */ /* */ /* <Input> */ /* range :: The target range. */ /* stream :: The input stream. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. */ /* */ static TT_Error Load_SBit_Range( TT_SBit_Range* range, FT_Stream stream ) { TT_Error error; FT_Memory memory = stream->memory; switch( range->index_format ) { case 1: /* variable metrics with 4-byte offsets */ case 3: /* variable metrics with 2-byte offsets */ { TT_ULong num_glyphs, n; TT_Int size_elem; TT_Bool large = (range->index_format == 1); num_glyphs = range->last_glyph - range->first_glyph + 1L; range->num_glyphs = num_glyphs; num_glyphs++; /* XXX : BEWARE - see spec */ size_elem = ( large ? 4 : 2 ); if ( ALLOC_ARRAY( range->glyph_offsets, num_glyphs, TT_ULong ) || ACCESS_Frame( num_glyphs * size_elem ) ) goto Exit; for ( n = 0; n < num_glyphs; n++ ) range->glyph_offsets[n] = (TT_ULong)( range->image_offset + (large ? GET_ULong() : GET_UShort()) ); FORGET_Frame(); } break; case 2: /* all glyphs have identical metrics */ error = Load_SBit_Const_Metrics( range, stream ); break; case 4: error = Load_SBit_Range_Codes( range, stream, 1 ); break; case 5: error = Load_SBit_Const_Metrics( range, stream ) || Load_SBit_Range_Codes( range, stream, 0 ); break; default: error = TT_Err_Invalid_File_Format; } Exit: return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Strikes */ /* */ /* <Description> */ /* Loads the table of embedded bitmap sizes for this face. */ /* */ /* <Input> */ /* face :: The target face object. */ /* stream :: The input stream. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. */ /* */ LOCAL_FUNC TT_Error TT_Load_SBit_Strikes( TT_Face face, FT_Stream stream ) { TT_Error error = 0; FT_Memory memory = stream->memory; TT_Fixed version; TT_ULong num_strikes; TT_ULong table_base; /* this table is optional */ error = face->goto_table( face, TTAG_EBLC, stream, 0 ); { error = 0; goto Exit; } table_base = FILE_Pos(); if ( ACCESS_Frame( 8L ) ) goto Exit; version = GET_Long(); num_strikes = GET_ULong(); FORGET_Frame(); /* check version number and strike count */ if ( version != 0x00020000 || num_strikes >= 0x10000 ) { FT_ERROR(( "TT_Load_SBit_Strikes: invalid table version!\n" )); error = TT_Err_Invalid_File_Format; goto Exit; } /* allocate the strikes table */ if ( ALLOC_ARRAY( face->sbit_strikes, num_strikes, TT_SBit_Strike ) ) goto Exit; face->num_sbit_strikes = num_strikes; /* now read each strike table separately */ { TT_SBit_Strike* strike = face->sbit_strikes; TT_ULong count = num_strikes; if ( ACCESS_Frame( 48L * num_strikes ) ) goto Exit; while ( count > 0 ) { TT_ULong indexTablesSize; strike->ranges_offset = GET_ULong(); indexTablesSize = GET_ULong(); /* don't save */ strike->num_ranges = GET_ULong(); strike->color_ref = GET_ULong(); TT_Load_SBit_Line_Metrics( &strike->hori, stream ); TT_Load_SBit_Line_Metrics( &strike->vert, stream ); strike->start_glyph = GET_UShort(); strike->end_glyph = GET_UShort(); strike->x_ppem = GET_Byte(); strike->y_ppem = GET_Byte(); strike->bit_depth = GET_Byte(); strike->flags = GET_Char(); count--; strike++; } FORGET_Frame(); } /* allocate the index ranges for each strike table */ { TT_SBit_Strike* strike = face->sbit_strikes; TT_ULong count = num_strikes; while ( count > 0 ) { TT_SBit_Range* range; TT_ULong count2 = strike->num_ranges; if ( ALLOC_ARRAY( strike->sbit_ranges, strike->num_ranges, TT_SBit_Range ) ) goto Exit; /* read each range */ if ( FILE_Seek( table_base + strike->ranges_offset ) || ACCESS_Frame( strike->num_ranges * 8L ) ) goto Exit; range = strike->sbit_ranges; while ( count2 > 0 ) { range->first_glyph = GET_UShort(); range->last_glyph = GET_UShort(); range->table_offset = table_base + strike->ranges_offset + GET_ULong(); count2--; range++; } FORGET_Frame(); /* Now, read each index table */ count2 = strike->num_ranges; range = strike->sbit_ranges; while ( count2 > 0 ) { /* Read the header */ if ( FILE_Seek( range->table_offset ) || ACCESS_Frame( 8L ) ) goto Exit; range->index_format = GET_UShort(); range->image_format = GET_UShort(); range->image_offset = GET_ULong(); FORGET_Frame(); error = Load_SBit_Range( range, stream ); if ( error ) goto Exit; count2--; range++; } count--; strike++; } } Exit: return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_Free_SBit_Strikes */ /* */ /* <Description> */ /* Releases the embedded bitmap tables. */ /* */ /* <Input> */ /* face :: The target face object. */ /* */ LOCAL_FUNC void TT_Free_SBit_Strikes( TT_Face face ) { FT_Memory memory = face->root.memory; TT_SBit_Strike* strike = face->sbit_strikes; TT_SBit_Strike* strike_limit = strike + face->num_sbit_strikes; if ( strike ) { for ( ; strike < strike_limit; strike++ ) { TT_SBit_Range* range = strike->sbit_ranges; TT_SBit_Range* range_limit = range + strike->num_ranges; if ( range ) { for ( ; range < range_limit; range++ ) { /* release the glyph offsets and codes tables */ /* where appropriate */ FREE( range->glyph_offsets ); FREE( range->glyph_codes ); } } FREE( strike->sbit_ranges ); strike->num_ranges = 0; } FREE( face->sbit_strikes ); } face->num_sbit_strikes = 0; } /*************************************************************************/ /* */ /* <Function> */ /* Find_SBit_Range */ /* */ /* <Description> */ /* Scans a given strike's ranges and return, for a given glyph */ /* index, the corresponding sbit range, and `EBDT' offset. */ /* */ /* <Input> */ /* glyph_index :: The glyph index. */ /* strike :: The source/current sbit strike. */ /* */ /* <Output> */ /* arange :: The sbit range containing the glyph index. */ /* aglyph_offset :: The offset of the glyph data in `EBDT' table. */ /* */ /* <Return> */ /* TrueType error code. 0 means the glyph index was found. */ /* */ static TT_Error Find_SBit_Range( TT_UInt glyph_index, TT_SBit_Strike* strike, TT_SBit_Range** arange, TT_ULong* aglyph_offset ) { TT_SBit_Range *range, *range_limit; /* check whether the glyph index is within this strike's */ /* glyph range */ if ( glyph_index < strike->start_glyph || glyph_index > strike->end_glyph ) goto Fail; /* scan all ranges in strike */ range = strike->sbit_ranges; range_limit = range + strike->num_ranges; if ( !range ) goto Fail; for ( ; range < range_limit; range++ ) { if ( glyph_index >= range->first_glyph && glyph_index <= range->last_glyph ) { TT_UShort delta = glyph_index - range->first_glyph; switch ( range->index_format ) { case 1: case 3: *aglyph_offset = range->glyph_offsets[delta]; break; case 2: *aglyph_offset = range->image_offset + range->image_size * delta; break; case 4: case 5: { TT_ULong n; for ( n = 0; n < range->num_glyphs; n++ ) { if ( range->glyph_codes[n] == glyph_index ) { if ( range->index_format == 4 ) *aglyph_offset = range->glyph_offsets[n]; else *aglyph_offset = range->image_offset + n * range->image_size; break; } } } /* fall-through */ default: goto Fail; } /* return successfully! */ *arange = range; return 0; } } Fail: *arange = 0; *aglyph_offset = 0; return TT_Err_Invalid_Argument; } /*************************************************************************/ /* */ /* <Function> */ /* Find_SBit_Image */ /* */ /* <Description> */ /* Checks whether an embedded bitmap (an `sbit') exists for a given */ /* glyph, at given x and y ppems. */ /* */ /* <Input> */ /* face :: The target face object. */ /* glyph_index :: The glyph index. */ /* x_ppem :: The horizontal resolution in points per EM. */ /* y_ppem :: The vertical resolution in points per EM. */ /* */ /* <Output> */ /* arange :: The SBit range containing the glyph index. */ /* astrike :: The SBit strike containing the glyph index. */ /* aglyph_offset :: The offset of the glyph data in `EBDT' table. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. Returns */ /* TT_Err_Invalid_Argument if no sbit exist for the requested glyph. */ /* */ static TT_Error Find_SBit_Image( TT_Face face, TT_UInt glyph_index, TT_Int x_ppem, TT_Int y_ppem, TT_SBit_Range** arange, TT_SBit_Strike** astrike, TT_ULong* aglyph_offset ) { TT_SBit_Strike* strike = face->sbit_strikes; TT_SBit_Strike* strike_limit = strike + face->num_sbit_strikes; if ( !strike) goto Fail; for ( ; strike < strike_limit; strike++ ) { if ( strike->x_ppem == x_ppem && strike->y_ppem == y_ppem ) { TT_Error error; error = Find_SBit_Range( glyph_index, strike, arange, aglyph_offset ); if ( error ) goto Fail; *astrike = strike; return TT_Err_Ok; } } Fail: /* no embedded bitmap for this glyph in face */ *arange = 0; *astrike = 0; *aglyph_offset = 0; return TT_Err_Invalid_Argument; } /*************************************************************************/ /* */ /* <Function> */ /* Load_SBit_Metrics */ /* */ /* <Description> */ /* Gets the big metrics for a given SBit. */ /* */ /* <Input> */ /* stream :: The input stream. */ /* range :: The SBit range containing the glyph. */ /* */ /* <Output> */ /* big_metrics :: A big SBit metrics structure for the glyph. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. */ /* */ /* <Note> */ /* The stream cursor must be positioned at the glyph's offset within */ /* the `EBDT' table before the call. */ /* */ /* If the image format uses variable metrics, the stream cursor is */ /* positioned just after the metrics header in the `EBDT' table on */ /* function exit. */ /* */ static TT_Error Load_SBit_Metrics( FT_Stream stream, TT_SBit_Range* range, TT_SBit_Metrics* metrics ) { TT_Error error = TT_Err_Ok; switch ( range->index_format ) { case 1: /* variable metrics */ case 3: case 4: { switch ( range->image_format ) { case 1: /* small metrics */ case 2: case 8: { TT_SBit_Small_Metrics smetrics; /* read small metrics */ if ( ACCESS_Frame( 5L ) ) goto Exit; TT_Load_Small_SBit_Metrics( &smetrics, stream ); FORGET_Frame(); /* convert it to a big metrics */ metrics->height = smetrics.height; metrics->width = smetrics.width; metrics->horiBearingX = smetrics.bearingX; metrics->horiBearingY = smetrics.bearingY; metrics->horiAdvance = smetrics.advance; /* these metrics are made up at a higher level when */ /* needed. */ metrics->vertBearingX = 0; metrics->vertBearingY = 0; metrics->vertAdvance = 0; } break; default: /* big metrics */ if ( ACCESS_Frame( 8L ) ) goto Exit; TT_Load_SBit_Metrics( metrics, stream ); FORGET_Frame(); } } break; default: /* constant metrics */ *metrics = range->metrics; } Exit: return error; } /*************************************************************************/ /* */ /* <Function> */ /* Crop_Bitmap */ /* */ /* <Description> */ /* Crops a bitmap to its tightest bounding box, and adjusts its */ /* metrics. */ /* */ /* <Input> */ /* image :: The input glyph slot. */ /* */ /* metrics :: The corresponding metrics structure. */ /* */ static void Crop_Bitmap( FT_Bitmap* map, TT_SBit_Metrics* metrics ) { /***********************************************************************/ /* */ /* In this situation, some bounding boxes of embedded bitmaps are too */ /* large. We need to crop it to a reasonable size. */ /* */ /* --------- */ /* | | ----- */ /* | *** | |***| */ /* | * | | * | */ /* | * | ------> | * | */ /* | * | | * | */ /* | * | | * | */ /* | *** | |***| */ /* --------- ----- */ /* */ /***********************************************************************/ TT_Int rows, count; TT_Long line_len; TT_Byte* line; /***********************************************************************/ /* */ /* first of all, checks the top-most lines of the bitmap, and removes */ /* them if they're empty. */ /* */ { line = (TT_Byte*)map->buffer; rows = map->rows; line_len = map->pitch; for ( count = 0; count < rows; count++ ) { TT_Byte* cur = line; TT_Byte* limit = line + line_len; for ( ; cur < limit; cur++ ) if ( cur[0] ) goto Found_Top; /* the current line was empty - skip to next one */ line = limit; } Found_Top: /* check that we have at least one filled line */ if ( count >= rows ) goto Empty_Bitmap; /* now, crop the empty upper lines */ if ( count > 0 ) { line = (TT_Byte*)map->buffer; MEM_Move( line, line + count * line_len, (rows - count) * line_len ); metrics->height -= count; metrics->horiBearingY -= count; metrics->vertBearingY -= count; map->rows -= count; rows -= count; } } /***********************************************************************/ /* */ /* second, crop the lower lines */ /* */ { line = (TT_Byte*)map->buffer + (rows - 1) * line_len; for ( count = 0; count < rows; count++ ) { TT_Byte* cur = line; TT_Byte* limit = line + line_len; for ( ; cur < limit; cur++ ) if ( cur[0] ) goto Found_Bottom; /* the current line was empty - skip to previous one */ line -= line_len; } Found_Bottom: if ( count > 0 ) { metrics->height -= count; rows -= count; map->rows -= count; } } /***********************************************************************/ /* */ /* third, get rid of the space on the left side of the glyph */ /* */ do { TT_Byte* limit; line = (TT_Byte*)map->buffer; limit = line + rows * line_len; for ( ; line < limit; line += line_len ) if ( line[0] & 0x80 ) goto Found_Left; /* shift the whole glyph one pixel to the left */ line = (TT_Byte*)map->buffer; limit = line + rows * line_len; for ( ; line < limit; line += line_len ) { TT_Int n, width = map->width; TT_Byte old; TT_Byte* cur = line; old = cur[0] << 1; for ( n = 8; n < width; n += 8 ) { TT_Byte val; val = cur[1]; cur[0] = old | (val >> 7); old = val << 1; cur++; } cur[0] = old; } map->width--; metrics->horiBearingX++; metrics->vertBearingX++; metrics->width--; } while ( map->width > 0 ); Found_Left: /***********************************************************************/ /* */ /* finally, crop the bitmap width to get rid of the space on the right */ /* side of the glyph. */ /* */ do { TT_Int right = map->width-1; TT_Byte* limit; TT_Byte mask; line = (TT_Byte*)map->buffer + (right >> 3); limit = line + rows*line_len; mask = 0x80 >> (right & 7); for ( ; line < limit; line += line_len ) if ( line[0] & mask ) goto Found_Right; /* crop the whole glyph to the right */ map->width--; metrics->width--; } while ( map->width > 0 ); Found_Right: /* all right, the bitmap was cropped */ return; Empty_Bitmap: map->width = 0; map->rows = 0; map->pitch = 0; map->pixel_mode = ft_pixel_mode_mono; } static TT_Error Load_SBit_Single( FT_Bitmap* map, TT_Int x_offset, TT_Int y_offset, TT_Int pix_bits, TT_UShort image_format, TT_SBit_Metrics* metrics, FT_Stream stream ) { TT_Error error; /* check that the source bitmap fits into the target pixmap */ if ( x_offset < 0 || x_offset + metrics->width > map->width || y_offset < 0 || y_offset + metrics->height > map->rows ) { error = TT_Err_Invalid_Argument; goto Exit; } { TT_Int glyph_width = metrics->width; TT_Int glyph_height = metrics->height; TT_Int glyph_size; TT_Int line_bits = pix_bits * glyph_width; TT_Bool pad_bytes = 0; /* compute size of glyph image */ switch ( image_format ) { case 1: /* byte-padded formats */ case 6: { TT_Int line_length; switch ( pix_bits ) { case 1: line_length = (glyph_width+7) >> 3; break; case 2: line_length = (glyph_width+3) >> 2; break; case 4: line_length = (glyph_width+1) >> 1; break; default: line_length = glyph_width; } glyph_size = glyph_height * line_length; pad_bytes = 1; } break; case 2: case 5: case 7: line_bits = glyph_width * pix_bits; glyph_size = (glyph_height * line_bits + 7) >> 3; break; default: /* invalid format */ return TT_Err_Invalid_File_Format; } /* Now read data and draw glyph into target pixmap */ if ( ACCESS_Frame( glyph_size ) ) goto Exit; /* don't forget to multiply `x_offset' by `map->pix_bits' as */ /* the sbit blitter doesn't make a difference between pixmap */ /* depths. */ blit_sbit( map, stream->cursor, line_bits, pad_bytes, x_offset * pix_bits, y_offset ); FORGET_Frame(); } Exit: return error; } static TT_Error Load_SBit_Image( TT_SBit_Strike* strike, TT_SBit_Range* range, TT_ULong ebdt_pos, TT_ULong glyph_offset, FT_Bitmap* map, TT_Int x_offset, TT_Int y_offset, FT_Stream stream, TT_SBit_Metrics* metrics ) { FT_Memory memory = stream->memory; TT_Error error; /* place stream at beginning of glyph data and read metrics */ if ( FILE_Seek( ebdt_pos + glyph_offset ) ) goto Exit; error = Load_SBit_Metrics( stream, range, metrics ); if ( error ) goto Exit; /* this function is recursive. At the top-level call, the */ /* field map.buffer is NULL. We thus begin by finding the */ /* dimensions of the higher-level glyph to allocate the */ /* final pixmap buffer */ if ( map->buffer == 0 ) { TT_Long size; map->width = metrics->width; map->rows = metrics->height; switch ( strike->bit_depth ) { case 1: map->pixel_mode = ft_pixel_mode_mono; map->pitch = (map->width+7) >> 3; break; case 2: map->pixel_mode = ft_pixel_mode_pal2; map->pitch = (map->width+3) >> 2; break; case 4: map->pixel_mode = ft_pixel_mode_pal4; map->pitch = (map->width+1) >> 1; break; case 8: map->pixel_mode = ft_pixel_mode_grays; map->pitch = map->width; break; default: return TT_Err_Invalid_File_Format; } size = map->rows * map->pitch; /* check that there is no empty image */ if ( size == 0 ) goto Exit; /* exit successfully! */ if ( ALLOC( map->buffer, size ) ) goto Exit; } switch ( range->image_format ) { case 1: /* single sbit image - load it */ case 2: case 5: case 6: case 7: return Load_SBit_Single( map, x_offset, y_offset, strike->bit_depth, range->image_format, metrics, stream ); case 8: /* compound format */ case 9: break; default: /* invalid image format */ return TT_Err_Invalid_File_Format; } /* All right, we're in a compound format. First of all, read */ /* the array of elements */ { TT_SBit_Component* components; TT_SBit_Component* comp; TT_UShort num_components, count; if ( READ_UShort( num_components ) || ALLOC_ARRAY( components, num_components, TT_SBit_Component ) ) goto Exit; count = num_components; if ( ACCESS_Frame( 4L * num_components ) ) goto Fail_Memory; for ( comp = components; count > 0; count--, comp++ ) { comp->glyph_code = GET_UShort(); comp->x_offset = GET_Char(); comp->y_offset = GET_Char(); } FORGET_Frame(); /* Now recursively load each element glyph */ count = num_components; comp = components; for ( ; count > 0; count--, comp++ ) { TT_SBit_Range* elem_range; TT_SBit_Metrics elem_metrics; TT_ULong elem_offset; /* find the range for this element */ error = Find_SBit_Range( comp->glyph_code, strike, &elem_range, &elem_offset ); if ( error ) goto Fail_Memory; /* now load the element, recursively */ error = Load_SBit_Image( strike, elem_range, ebdt_pos, elem_offset, map, x_offset + comp->x_offset, y_offset + comp->y_offset, stream, &elem_metrics ); if ( error ) goto Fail_Memory; } Fail_Memory: FREE( components ); } Exit: return error; } /*************************************************************************/ /* */ /* <Function> */ /* TT_Load_SBit_Image */ /* */ /* <Description> */ /* Loads a given glyph sbit image from the font resource. This also */ /* returns its metrics. */ /* */ /* <Input> */ /* face :: The target face object. */ /* */ /* x_ppem :: The horizontal resolution in points per EM. */ /* */ /* y_ppem :: The vertical resolution in points per EM. */ /* */ /* glyph_index :: The current glyph index. */ /* */ /* stream :: The input stream. */ /* */ /* <Output> */ /* map :: The target pixmap. */ /* metrics :: A big sbit metrics structure for the glyph image. */ /* */ /* <Return> */ /* TrueType error code. 0 means success. Returns an error if no */ /* glyph sbit exists for the index. */ /* */ /* <Note> */ /* The `map.buffer' field is always freed before the glyph is loaded. */ /* */ LOCAL_FUNC TT_Error TT_Load_SBit_Image( TT_Face face, TT_Int x_ppem, TT_Int y_ppem, TT_UInt glyph_index, FT_Stream stream, FT_Bitmap* map, TT_SBit_Metrics* metrics ) { TT_Error error; FT_Memory memory = stream->memory; TT_ULong ebdt_pos, glyph_offset; TT_SBit_Strike* strike; TT_SBit_Range* range; /* Check whether there is a glyph sbit for the current index */ error = Find_SBit_Image( face, glyph_index, x_ppem, y_ppem, &range, &strike, &glyph_offset ); if ( error ) goto Exit; /* now, find the location of the `EBDT' table in */ /* the font file */ error = face->goto_table( face, TTAG_EBDT, stream, 0 ); if (error) goto Exit; ebdt_pos = FILE_Pos(); /* clear the bitmap & load the bitmap */ FREE( map->buffer ); map->rows = map->pitch = map->width = 0; error = Load_SBit_Image( strike, range, ebdt_pos, glyph_offset, map, 0, 0, stream, metrics ); if ( error ) goto Exit; /* setup vertical metrics if needed */ if ( strike->flags & 1 ) { /* in case of a horizontal strike only */ FT_Int advance; FT_Int top; advance = strike->hori.ascender - strike->hori.descender; top = advance / 10; metrics->vertBearingX = -metrics->width / 2; metrics->vertBearingY = advance / 10; metrics->vertAdvance = advance * 12 / 10; } /* Crop the bitmap now */ Crop_Bitmap( map, metrics ); Exit: return error; } /* END */