/* * Copyright 2000 Computing Research Labs, New Mexico State University * Copyright 2001, 2002 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 COMPUTING RESEARCH LAB OR NEW MEXICO STATE UNIVERSITY 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. */ /*************************************************************************/ /* */ /* This file is based on bdf.c,v 1.22 2000/03/16 20:08:50 */ /* */ /* taken from Mark Leisher's xmbdfed package */ /* */ /*************************************************************************/ #include #include FT_FREETYPE_H #include FT_INTERNAL_DEBUG_H #include FT_INTERNAL_STREAM_H #include FT_INTERNAL_OBJECTS_H #include "bdf.h" #include "bdferror.h" /*************************************************************************/ /* */ /* 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_bdflib /*************************************************************************/ /* */ /* Default BDF font options. */ /* */ /*************************************************************************/ static const bdf_options_t _bdf_opts = { 1, /* Correct metrics. */ 1, /* Preserve unencoded glyphs. */ 0, /* Preserve comments. */ BDF_PROPORTIONAL /* Default spacing. */ }; /*************************************************************************/ /* */ /* Builtin BDF font properties. */ /* */ /*************************************************************************/ /* List of most properties that might appear in a font. Doesn't include */ /* the RAW_* and AXIS_* properties in X11R6 polymorphic fonts. */ static const bdf_property_t _bdf_properties[] = { { (char *)"ADD_STYLE_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"AVERAGE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"AVG_CAPITAL_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"AVG_LOWERCASE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"CAP_HEIGHT", BDF_INTEGER, 1, { 0 } }, { (char *)"CHARSET_COLLECTIONS", BDF_ATOM, 1, { 0 } }, { (char *)"CHARSET_ENCODING", BDF_ATOM, 1, { 0 } }, { (char *)"CHARSET_REGISTRY", BDF_ATOM, 1, { 0 } }, { (char *)"COMMENT", BDF_ATOM, 1, { 0 } }, { (char *)"COPYRIGHT", BDF_ATOM, 1, { 0 } }, { (char *)"DEFAULT_CHAR", BDF_CARDINAL, 1, { 0 } }, { (char *)"DESTINATION", BDF_CARDINAL, 1, { 0 } }, { (char *)"DEVICE_FONT_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"END_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"FACE_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"FAMILY_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"FIGURE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"FONT", BDF_ATOM, 1, { 0 } }, { (char *)"FONTNAME_REGISTRY", BDF_ATOM, 1, { 0 } }, { (char *)"FONT_ASCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"FONT_DESCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"FOUNDRY", BDF_ATOM, 1, { 0 } }, { (char *)"FULL_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"ITALIC_ANGLE", BDF_INTEGER, 1, { 0 } }, { (char *)"MAX_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"MIN_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"NORM_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"NOTICE", BDF_ATOM, 1, { 0 } }, { (char *)"PIXEL_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"POINT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"QUAD_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_ASCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_AVERAGE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_AVG_CAPITAL_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_AVG_LOWERCASE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_CAP_HEIGHT", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_DESCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_END_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_FIGURE_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_MAX_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_MIN_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_NORM_SPACE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_PIXEL_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_POINT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_PIXELSIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_POINTSIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_QUAD_WIDTH", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SMALL_CAP_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_STRIKEOUT_ASCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_STRIKEOUT_DESCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUBSCRIPT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUBSCRIPT_X", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUBSCRIPT_Y", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUPERSCRIPT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUPERSCRIPT_X", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_SUPERSCRIPT_Y", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_UNDERLINE_POSITION", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_UNDERLINE_THICKNESS", BDF_INTEGER, 1, { 0 } }, { (char *)"RAW_X_HEIGHT", BDF_INTEGER, 1, { 0 } }, { (char *)"RELATIVE_SETWIDTH", BDF_CARDINAL, 1, { 0 } }, { (char *)"RELATIVE_WEIGHT", BDF_CARDINAL, 1, { 0 } }, { (char *)"RESOLUTION", BDF_INTEGER, 1, { 0 } }, { (char *)"RESOLUTION_X", BDF_CARDINAL, 1, { 0 } }, { (char *)"RESOLUTION_Y", BDF_CARDINAL, 1, { 0 } }, { (char *)"SETWIDTH_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"SLANT", BDF_ATOM, 1, { 0 } }, { (char *)"SMALL_CAP_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"SPACING", BDF_ATOM, 1, { 0 } }, { (char *)"STRIKEOUT_ASCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"STRIKEOUT_DESCENT", BDF_INTEGER, 1, { 0 } }, { (char *)"SUBSCRIPT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"SUBSCRIPT_X", BDF_INTEGER, 1, { 0 } }, { (char *)"SUBSCRIPT_Y", BDF_INTEGER, 1, { 0 } }, { (char *)"SUPERSCRIPT_SIZE", BDF_INTEGER, 1, { 0 } }, { (char *)"SUPERSCRIPT_X", BDF_INTEGER, 1, { 0 } }, { (char *)"SUPERSCRIPT_Y", BDF_INTEGER, 1, { 0 } }, { (char *)"UNDERLINE_POSITION", BDF_INTEGER, 1, { 0 } }, { (char *)"UNDERLINE_THICKNESS", BDF_INTEGER, 1, { 0 } }, { (char *)"WEIGHT", BDF_CARDINAL, 1, { 0 } }, { (char *)"WEIGHT_NAME", BDF_ATOM, 1, { 0 } }, { (char *)"X_HEIGHT", BDF_INTEGER, 1, { 0 } }, { (char *)"_MULE_BASELINE_OFFSET", BDF_INTEGER, 1, { 0 } }, { (char *)"_MULE_RELATIVE_COMPOSE", BDF_INTEGER, 1, { 0 } }, }; static unsigned long _num_bdf_properties = sizeof ( _bdf_properties ) / sizeof ( _bdf_properties[0] ); /*************************************************************************/ /* */ /* Hash table utilities for the properties. */ /* */ /*************************************************************************/ /* XXX: Replace this with FreeType's hash functions */ #define INITIAL_HT_SIZE 241 typedef void (*hash_free_func)( hashnode node ); static hashnode* hash_bucket( char* key, hashtable* ht ) { char* kp = key; unsigned long res = 0; hashnode* bp = ht->table, *ndp; /* Mocklisp hash function. */ while ( *kp ) res = ( res << 5 ) - res + *kp++; ndp = bp + ( res % ht->size ); while ( *ndp ) { kp = (*ndp)->key; if ( kp[0] == key[0] && ft_strcmp( kp, key ) == 0 ) break; ndp--; if ( ndp < bp ) ndp = bp + ( ht->size - 1 ); } return ndp; } static FT_Error hash_rehash( hashtable* ht, FT_Memory memory ) { hashnode* obp = ht->table, *bp, *nbp; int i, sz = ht->size; FT_Error error = BDF_Err_Ok; ht->size <<= 1; ht->limit = ht->size / 3; if ( FT_NEW_ARRAY( ht->table, ht->size ) ) goto Exit; FT_MEM_ZERO( ht->table, sizeof ( hashnode ) * ht->size ); for ( i = 0, bp = obp; i < sz; i++, bp++ ) { if ( *bp ) { nbp = hash_bucket( (*bp)->key, ht ); *nbp = *bp; } } FT_FREE( obp ); Exit: return error; } static FT_Error hash_init( hashtable* ht, FT_Memory memory ) { int sz = INITIAL_HT_SIZE; FT_Error error = BDF_Err_Ok; ht->size = sz; ht->limit = sz / 3; ht->used = 0; if ( FT_NEW_ARRAY( ht->table, sz ) ) goto Exit; FT_MEM_ZERO( ht->table, sizeof ( hashnode ) * sz ); Exit: return error; } static void hash_free( hashtable* ht, FT_Memory memory ) { if ( ht != 0 ) { int i, sz = ht->size; hashnode* bp = ht->table; for ( i = 0; i < sz; i++, bp++ ) FT_FREE( *bp ); FT_FREE( ht->table ); } } static FT_Error hash_insert( char* key, void* data, hashtable* ht, FT_Memory memory ) { hashnode nn, *bp = hash_bucket( key, ht ); FT_Error error = BDF_Err_Ok; nn = *bp; if ( !nn ) { if ( FT_NEW( nn ) ) goto Exit; *bp = nn; nn->key = key; nn->data = data; if ( ht->used >= ht->limit ) { error = hash_rehash( ht, memory ); if ( error ) goto Exit; } ht->used++; } else nn->data = data; Exit: return error; } static hashnode hash_lookup( char* key, hashtable* ht ) { hashnode *np = hash_bucket( key, ht ); return *np; } /*************************************************************************/ /* */ /* Utility types and functions. */ /* */ /*************************************************************************/ /* Function type for parsing lines of a BDF font. */ typedef FT_Error (*_bdf_line_func_t)( char* line, unsigned long linelen, unsigned long lineno, void* call_data, void* client_data ); /* List structure for splitting lines into fields. */ typedef struct _bdf_list_t_ { char** field; unsigned long size; unsigned long used; } _bdf_list_t; /* Structure used while loading BDF fonts. */ typedef struct _bdf_parse_t_ { unsigned long flags; unsigned long cnt; unsigned long row; short minlb; short maxlb; short maxrb; short maxas; short maxds; short rbearing; char* glyph_name; long glyph_enc; bdf_font_t* font; bdf_options_t* opts; unsigned long have[2048]; _bdf_list_t list; FT_Memory memory; } _bdf_parse_t; #define setsbit( m, cc ) ( m[(cc) >> 3] |= (FT_Byte)( 1 << ( (cc) & 7 ) ) ) #define sbitset( m, cc ) ( m[(cc) >> 3] & ( 1 << ( (cc) & 7 ) ) ) /* An empty string for empty fields. */ static char empty[1] = { 0 }; /* XXX eliminate this */ /* Assume the line is NULL-terminated and that the `list' parameter */ /* was initialized the first time it was used. */ static FT_Error _bdf_split( char* separators, char* line, unsigned long linelen, _bdf_list_t* list, FT_Memory memory ) { int mult, final_empty; char *sp, *ep, *end; char seps[32]; FT_Error error = BDF_Err_Ok; /* Initialize the list. */ list->used = 0; /* If the line is empty, then simply return. */ if ( linelen == 0 || line[0] == 0 ) goto Exit; /* In the original code, if the `separators' parameter is NULL or */ /* empty, the list is split into individual bytes. We don't need */ /* this, so an error is signaled. */ if ( separators == 0 || *separators == 0 ) { error = BDF_Err_Invalid_Argument; goto Exit; } /* Prepare the separator bitmap. */ FT_MEM_ZERO( seps, 32 ); /* If the very last character of the separator string is a plus, then */ /* set the `mult' flag to indicate that multiple separators should be */ /* collapsed into one. */ for ( mult = 0, sp = separators; sp && *sp; sp++ ) { if ( *sp == '+' && *( sp + 1 ) == 0 ) mult = 1; else setsbit( seps, *sp ); } /* Break the line up into fields. */ for ( final_empty = 0, sp = ep = line, end = sp + linelen; sp < end && *sp; ) { /* Collect everything that is not a separator. */ for ( ; *ep && !sbitset( seps, *ep ); ep++ ) ; /* Resize the list if necessary. */ if ( list->used == list->size ) { if ( list->size == 0 ) { if ( FT_NEW_ARRAY( list->field, 5 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY ( list->field , list->size, list->size + 5 ) ) goto Exit; } list->size += 5; } /* Assign the field appropriately. */ list->field[list->used++] = ( ep > sp ) ? sp : empty; sp = ep; if ( mult ) { /* If multiple separators should be collapsed, do it now by */ /* setting all the separator characters to 0. */ for ( ; *ep && sbitset( seps, *ep ); ep++ ) *ep = 0; } else if ( *ep != 0 ) /* Don't collapse multiple separators by making them 0, so just */ /* make the one encountered 0. */ *ep++ = 0; final_empty = ( ep > sp && *ep == 0 ); sp = ep; } /* Finally, NULL-terminate the list. */ if ( list->used + final_empty + 1 >= list->size ) { if ( list->used == list->size ) { if ( list->size == 0 ) { if ( FT_NEW_ARRAY( list->field, 5 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( list->field, list->size, list->size + 5 ) ) goto Exit; } list->size += 5; } } if ( final_empty ) list->field[list->used++] = empty; if ( list->used == list->size ) { if ( list->size == 0 ) { if ( FT_NEW_ARRAY( list->field, 5 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( list->field, list->size, list->size + 5 ) ) goto Exit; } list->size += 5; } list->field[list->used] = 0; Exit: return error; } static void _bdf_shift( unsigned long n, _bdf_list_t* list ) { unsigned long i, u; if ( list == 0 || list->used == 0 || n == 0 ) return; if ( n >= list->used ) { list->used = 0; return; } for ( u = n, i = 0; u < list->used; i++, u++ ) list->field[i] = list->field[u]; list->used -= n; } static char * _bdf_join( int c, unsigned long* len, _bdf_list_t* list ) { unsigned long i, j; char *fp, *dp; if ( list == 0 || list->used == 0 ) return 0; *len = 0; dp = list->field[0]; for ( i = j = 0; i < list->used; i++ ) { fp = list->field[i]; while ( *fp ) dp[j++] = *fp++; if ( i + 1 < list->used ) dp[j++] = (char)c; } dp[j] = 0; *len = j; return dp; } /* High speed file reader that passes each line to a callback. */ static FT_Error bdf_internal_readstream( FT_Stream stream, char* buffer, int count, int *read_bytes ) { int rbytes; unsigned long pos = stream->pos; FT_Error error = BDF_Err_Ok; if ( pos > stream->size ) { FT_ERROR(( "bdf_internal_readstream:" )); FT_ERROR(( " invalid i/o; pos = 0x%lx, size = 0x%lx\n", pos, stream->size )); error = BDF_Err_Invalid_Stream_Operation; goto Exit; } if ( stream->read ) rbytes = stream->read( stream, pos, (unsigned char *)buffer, count ); else { rbytes = stream->size - pos; if ( rbytes > count ) rbytes = count; FT_MEM_COPY( buffer, stream->base + pos, rbytes ); } stream->pos = pos + rbytes; *read_bytes = rbytes; Exit: return error; } static FT_Error _bdf_readstream( FT_Stream stream, _bdf_line_func_t callback, void* client_data, unsigned long *lno ) { _bdf_line_func_t cb; unsigned long lineno; int n, res, done, refill, bytes, hold; char *ls, *le, *pp, *pe, *hp; char *buf = 0; FT_Memory memory = stream->memory; FT_Error error = BDF_Err_Ok; if ( callback == 0 ) { error = BDF_Err_Invalid_Argument; goto Exit; } if ( FT_NEW_ARRAY( buf, 65536L ) ) goto Exit; cb = callback; lineno = 1; buf[0] = 0; res = done = 0; pp = ls = le = buf; bytes = 65536L; while ( !done ) { error = bdf_internal_readstream( stream, pp, bytes, &n ); if ( error ) goto Exit; if ( n == 0 ) break; /* Determine the new end of the buffer pages. */ pe = pp + n; for ( refill = 0; done == 0 && refill == 0; ) { while ( le < pe && *le != '\n' && *le != '\r' ) le++; if ( le == pe ) { /* Hit the end of the last page in the buffer. Need to find */ /* out how many pages to shift and how many pages need to be */ /* read in. Adjust the line start and end pointers down to */ /* point to the right places in the pages. */ pp = buf + ( ( ( ls - buf ) >> 13 ) << 13 ); n = pp - buf; ls -= n; le -= n; n = pe - pp; FT_MEM_COPY( buf, pp, n ); pp = buf + n; bytes = 65536L - n; refill = 1; } else { /* Temporarily NULL-terminate the line. */ hp = le; hold = *le; *le = 0; /* XXX: Use encoding independent value for 0x1a */ if ( *ls != '#' && *ls != 0x1a && le > ls && ( error = (*cb)( ls, le - ls, lineno, (void *)&cb, client_data ) ) != BDF_Err_Ok ) done = 1; else { ls = ++le; /* Handle the case of DOS crlf sequences. */ if ( le < pe && hold == '\n' && *le =='\r' ) ls = ++le; } /* Increment the line number. */ lineno++; /* Restore the character at the end of the line. */ *hp = (char)hold; } } } *lno = lineno; Exit: FT_FREE( buf ); return error; } /* XXX: make this work with EBCDIC also */ static const unsigned char a2i[128] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; static const unsigned char odigits[32] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, }; static const unsigned char ddigits[32] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, }; static const unsigned char hdigits[32] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0x03, 0x7e, 0x00, 0x00, 0x00, 0x7e, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, }; #define isdigok( m, d ) (m[(d) >> 3] & ( 1 << ( (d) & 7 ) ) ) /* Routine to convert an ASCII string into an unsigned long integer. */ static unsigned long _bdf_atoul( char* s, char** end, int base ) { unsigned long v; const unsigned char* dmap; if ( s == 0 || *s == 0 ) return 0; /* Make sure the radix is something recognizable. Default to 10. */ switch ( base ) { case 8: dmap = odigits; break; case 16: dmap = hdigits; break; default: base = 10; dmap = ddigits; break; } /* Check for the special hex prefix. */ if ( *s == '0' && ( *( s + 1 ) == 'x' || *( s + 1 ) == 'X' ) ) { base = 16; dmap = hdigits; s += 2; } for ( v = 0; isdigok( dmap, *s ); s++ ) v = v * base + a2i[(int)*s]; if ( end != 0 ) *end = s; return v; } /* Routine to convert an ASCII string into an signed long integer. */ static long _bdf_atol( char* s, char** end, int base ) { long v, neg; const unsigned char* dmap; if ( s == 0 || *s == 0 ) return 0; /* Make sure the radix is something recognizable. Default to 10. */ switch ( base ) { case 8: dmap = odigits; break; case 16: dmap = hdigits; break; default: base = 10; dmap = ddigits; break; } /* Check for a minus sign. */ neg = 0; if ( *s == '-' ) { s++; neg = 1; } /* Check for the special hex prefix. */ if ( *s == '0' && ( *( s + 1 ) == 'x' || *( s + 1 ) == 'X' ) ) { base = 16; dmap = hdigits; s += 2; } for ( v = 0; isdigok( dmap, *s ); s++ ) v = v * base + a2i[(int)*s]; if ( end != 0 ) *end = s; return ( !neg ) ? v : -v; } /* Routine to convert an ASCII string into an signed short integer. */ static short _bdf_atos( char* s, char** end, int base ) { short v, neg; const unsigned char* dmap; if ( s == 0 || *s == 0 ) return 0; /* Make sure the radix is something recognizable. Default to 10. */ switch ( base ) { case 8: dmap = odigits; break; case 16: dmap = hdigits; break; default: base = 10; dmap = ddigits; break; } /* Check for a minus. */ neg = 0; if ( *s == '-' ) { s++; neg = 1; } /* Check for the special hex prefix. */ if ( *s == '0' && ( *( s + 1 ) == 'x' || *( s + 1 ) == 'X' ) ) { base = 16; dmap = hdigits; s += 2; } for ( v = 0; isdigok( dmap, *s ); s++ ) v = (short)( v * base + a2i[(int)*s] ); if ( end != 0 ) *end = s; return (short)( ( !neg ) ? v : -v ); } /* Routine to compare two glyphs by encoding so they can be sorted. */ static int by_encoding( const void* a, const void* b ) { bdf_glyph_t *c1, *c2; c1 = (bdf_glyph_t *)a; c2 = (bdf_glyph_t *)b; if ( c1->encoding < c2->encoding ) return -1; else if ( c1->encoding > c2->encoding ) return 1; return 0; } static FT_Error bdf_create_property( char* name, int format, bdf_font_t* font ) { unsigned long n; bdf_property_t* p; FT_Memory memory = font->memory; FT_Error error = BDF_Err_Ok; /* First check to see if the property has */ /* already been added or not. If it has, then */ /* simply ignore it. */ if ( hash_lookup( name, &(font->proptbl) ) ) goto Exit; if ( font->nuser_props == 0 ) { if ( FT_NEW_ARRAY( font->user_props, 1 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( font->user_props, font->nuser_props, font->nuser_props + 1 ) ) goto Exit; } p = font->user_props + font->nuser_props; FT_MEM_ZERO( p, sizeof ( bdf_property_t ) ); n = (unsigned long)( ft_strlen( name ) + 1 ); if ( FT_NEW_ARRAY( p->name, n ) ) goto Exit; FT_MEM_COPY( (char *)p->name, name, n ); p->format = format; p->builtin = 0; n = _num_bdf_properties + font->nuser_props; error = hash_insert( p->name, (void *)n, &(font->proptbl), memory ); if ( error ) goto Exit; font->nuser_props++; Exit: return error; } FT_LOCAL_DEF( bdf_property_t * ) bdf_get_property( char* name, bdf_font_t* font ) { hashnode hn; unsigned long propid; if ( name == 0 || *name == 0 ) return 0; if ( ( hn = hash_lookup( name, &(font->proptbl) ) ) == 0 ) return 0; propid = (unsigned long)hn->data; if ( propid >= _num_bdf_properties ) return font->user_props + ( propid - _num_bdf_properties ); return (bdf_property_t*)_bdf_properties + propid; } /*************************************************************************/ /* */ /* BDF font file parsing flags and functions. */ /* */ /*************************************************************************/ /* Parse flags. */ #define _BDF_START 0x0001 #define _BDF_FONT_NAME 0x0002 #define _BDF_SIZE 0x0004 #define _BDF_FONT_BBX 0x0008 #define _BDF_PROPS 0x0010 #define _BDF_GLYPHS 0x0020 #define _BDF_GLYPH 0x0040 #define _BDF_ENCODING 0x0080 #define _BDF_SWIDTH 0x0100 #define _BDF_DWIDTH 0x0200 #define _BDF_BBX 0x0400 #define _BDF_BITMAP 0x0800 #define _BDF_SWIDTH_ADJ 0x1000 #define _BDF_GLYPH_BITS ( _BDF_GLYPH | \ _BDF_ENCODING | \ _BDF_SWIDTH | \ _BDF_DWIDTH | \ _BDF_BBX | \ _BDF_BITMAP ) #define _BDF_GLYPH_WIDTH_CHECK 0x40000000L #define _BDF_GLYPH_HEIGHT_CHECK 0x80000000L /* Auto correction messages. */ #define ACMSG1 "FONT_ASCENT property missing. " \ "Added \"FONT_ASCENT %hd\".\n" #define ACMSG2 "FONT_DESCENT property missing. " \ "Added \"FONT_DESCENT %hd\".\n" #define ACMSG3 "Font width != actual width. Old: %hd New: %hd.\n" #define ACMSG4 "Font left bearing != actual left bearing. " \ "Old: %hd New: %hd.\n" #define ACMSG5 "Font ascent != actual ascent. Old: %hd New: %hd.\n" #define ACMSG6 "Font descent != actual descent. Old: %hd New: %hd.\n" #define ACMSG7 "Font height != actual height. Old: %hd New: %hd.\n" #define ACMSG8 "Glyph scalable width (SWIDTH) adjustments made.\n" #define ACMSG9 "SWIDTH field missing at line %ld. Set automatically.\n" #define ACMSG10 "DWIDTH field missing at line %ld. Set to glyph width.\n" #define ACMSG11 "SIZE bits per pixel field adjusted to %hd.\n" #define ACMSG12 "Duplicate encoding %ld (%s) changed to unencoded.\n" #define ACMSG13 "Glyph %ld extra rows removed.\n" #define ACMSG14 "Glyph %ld extra columns removed.\n" #define ACMSG15 "Incorrect glyph count: %ld indicated but %ld found.\n" /* Error messages. */ #define ERRMSG1 "[line %ld] Missing \"%s\" line.\n" #define ERRMSG2 "[line %ld] Font header corrupted or missing fields.\n" #define ERRMSG3 "[line %ld] Font glyphs corrupted or missing fields.\n" static FT_Error _bdf_add_comment( bdf_font_t* font, char* comment, unsigned long len ) { char* cp; FT_Memory memory = font->memory; FT_Error error = BDF_Err_Ok; if ( font->comments_len == 0 ) { if ( FT_NEW_ARRAY( font->comments, len + 1 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( font->comments, font->comments_len, font->comments_len + len + 1 ) ) goto Exit; } cp = font->comments + font->comments_len; FT_MEM_COPY( cp, comment, len ); cp += len; *cp++ = '\n'; font->comments_len += len + 1; Exit: return error; } /* Set the spacing from the font name if it exists, or set it to the */ /* default specified in the options. */ static FT_Error _bdf_set_default_spacing( bdf_font_t* font, bdf_options_t* opts ) { unsigned long len; char name[128]; _bdf_list_t list; FT_Memory memory; FT_Error error = BDF_Err_Ok; if ( font == 0 || font->name == 0 || font->name[0] == 0 ) { error = BDF_Err_Invalid_Argument; goto Exit; } memory = font->memory; font->spacing = opts->font_spacing; len = (unsigned long)( ft_strlen( font->name ) + 1 ); FT_MEM_COPY( name, font->name, len ); list.size = list.used = 0; error = _bdf_split( (char *)"-", name, len, &list, memory ); if ( error ) goto Exit; if ( list.used == 15 ) { switch ( list.field[11][0] ) { case 'C': case 'c': font->spacing = BDF_CHARCELL; break; case 'M': case 'm': font->spacing = BDF_MONOWIDTH; break; case 'P': case 'p': font->spacing = BDF_PROPORTIONAL; break; } } FT_FREE( list.field ); Exit: return error; } /* Determine whether the property is an atom or not. If it is, then */ /* clean it up so the double quotes are removed if they exist. */ static int _bdf_is_atom( char* line, unsigned long linelen, char** name, char** value, bdf_font_t* font ) { int hold; char *sp, *ep; bdf_property_t* p; *name = sp = ep = line; while ( *ep && *ep != ' ' && *ep != '\t' ) ep++; hold = -1; if ( *ep ) { hold = *ep; *ep = 0; } p = bdf_get_property( sp, font ); /* Restore the character that was saved before any return can happen. */ if ( hold != -1 ) *ep = (char)hold; /* If the property exists and is not an atom, just return here. */ if ( p && p->format != BDF_ATOM ) return 0; /* The property is an atom. Trim all leading and trailing whitespace */ /* and double quotes for the atom value. */ sp = ep; ep = line + linelen; /* Trim the leading whitespace if it exists. */ *sp++ = 0; while ( *sp && ( *sp == ' ' || *sp == '\t' ) ) sp++; /* Trim the leading double quote if it exists. */ if ( *sp == '"' ) sp++; *value = sp; /* Trim the trailing whitespace if it exists. */ while ( ep > sp && ( *( ep - 1 ) == ' ' || *( ep - 1 ) == '\t' ) ) *--ep = 0; /* Trim the trailing double quote if it exists. */ if ( ep > sp && *( ep - 1 ) == '"' ) *--ep = 0; return 1; } static FT_Error _bdf_add_property( bdf_font_t* font, char* name, char* value ) { unsigned long propid; hashnode hn; int len; bdf_property_t *prop, *fp; FT_Memory memory = font->memory; FT_Error error = BDF_Err_Ok; /* First, check to see if the property already exists in the font. */ if ( ( hn = hash_lookup( name, (hashtable *)font->internal ) ) != 0 ) { /* The property already exists in the font, so simply replace */ /* the value of the property with the current value. */ fp = font->props + (unsigned long)hn->data; switch ( fp->format ) { case BDF_ATOM: /* Delete the current atom if it exists. */ FT_FREE( fp->value.atom ); if ( value == 0 ) len = 1; else len = ft_strlen( value ) + 1; if ( len > 1 ) { if ( FT_NEW_ARRAY( fp->value.atom, len ) ) goto Exit; FT_MEM_COPY( fp->value.atom, value, len ); } else fp->value.atom = 0; break; case BDF_INTEGER: fp->value.int32 = _bdf_atol( value, 0, 10 ); break; case BDF_CARDINAL: fp->value.card32 = _bdf_atoul( value, 0, 10 ); break; default: ; } goto Exit; } /* See whether this property type exists yet or not. */ /* If not, create it. */ hn = hash_lookup( name, &(font->proptbl) ); if ( hn == 0 ) { error = bdf_create_property( name, BDF_ATOM, font ); if ( error ) goto Exit; hn = hash_lookup( name, &(font->proptbl) ); } /* Allocate another property if this is overflow. */ if ( font->props_used == font->props_size ) { if ( font->props_size == 0 ) { if ( FT_NEW_ARRAY( font->props, 1 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( font->props, font->props_size, font->props_size + 1 ) ) goto Exit; } fp = font->props + font->props_size; FT_MEM_ZERO( fp, sizeof ( bdf_property_t ) ); font->props_size++; } propid = (unsigned long)hn->data; if ( propid >= _num_bdf_properties ) prop = font->user_props + ( propid - _num_bdf_properties ); else prop = (bdf_property_t*)_bdf_properties + propid; fp = font->props + font->props_used; fp->name = prop->name; fp->format = prop->format; fp->builtin = prop->builtin; switch ( prop->format ) { case BDF_ATOM: if ( value == 0 ) len = 1; else len = ft_strlen( value ) + 1; if ( len > 1 ) { if ( FT_NEW_ARRAY( fp->value.atom, len ) ) goto Exit; FT_MEM_COPY( fp->value.atom, value, len ); } else fp->value.atom = 0; break; case BDF_INTEGER: fp->value.int32 = _bdf_atol( value, 0, 10 ); break; case BDF_CARDINAL: fp->value.card32 = _bdf_atoul( value, 0, 10 ); break; } /* If the property happens to be a comment, then it doesn't need */ /* to be added to the internal hash table. */ if ( ft_memcmp( name, "COMMENT", 7 ) != 0 ) { /* Add the property to the font property table. */ error = hash_insert( fp->name, (void *)font->props_used, (hashtable *)font->internal, memory ); if ( error ) goto Exit; } font->props_used++; /* Some special cases need to be handled here. The DEFAULT_CHAR */ /* property needs to be located if it exists in the property list, the */ /* FONT_ASCENT and FONT_DESCENT need to be assigned if they are */ /* present, and the SPACING property should override the default */ /* spacing. */ if ( ft_memcmp( name, "DEFAULT_CHAR", 12 ) == 0 ) font->default_glyph = fp->value.int32; else if ( ft_memcmp( name, "FONT_ASCENT", 11 ) == 0 ) font->font_ascent = fp->value.int32; else if ( ft_memcmp( name, "FONT_DESCENT", 12 ) == 0 ) font->font_descent = fp->value.int32; else if ( ft_memcmp( name, "SPACING", 7 ) == 0 ) { if ( fp->value.atom[0] == 'p' || fp->value.atom[0] == 'P' ) font->spacing = BDF_PROPORTIONAL; else if ( fp->value.atom[0] == 'm' || fp->value.atom[0] == 'M' ) font->spacing = BDF_MONOWIDTH; else if ( fp->value.atom[0] == 'c' || fp->value.atom[0] == 'C' ) font->spacing = BDF_CHARCELL; } Exit: return error; } static const unsigned char nibble_mask[8] = { 0xFF, 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE }; /* Actually parse the glyph info and bitmaps. */ static FT_Error _bdf_parse_glyphs( char* line, unsigned long linelen, unsigned long lineno, void* call_data, void* client_data ) { int c, mask_index; char* s; unsigned char* bp; unsigned long i, slen, nibbles; _bdf_line_func_t* next; _bdf_parse_t* p; bdf_glyph_t* glyph; bdf_font_t* font; FT_Memory memory; FT_Error error = BDF_Err_Ok; FT_UNUSED( lineno ); /* only used in debug mode */ next = (_bdf_line_func_t *)call_data; p = (_bdf_parse_t *) client_data; font = p->font; memory = font->memory; /* Check for a comment. */ if ( ft_memcmp( line, "COMMENT", 7 ) == 0 ) { linelen -= 7; s = line + 7; if ( *s != 0 ) { s++; linelen--; } error = _bdf_add_comment( p->font, s, linelen ); goto Exit; } /* The very first thing expected is the number of glyphs. */ if ( !( p->flags & _BDF_GLYPHS ) ) { if ( ft_memcmp( line, "CHARS", 5 ) != 0 ) { FT_ERROR(( "_bdf_parse_glyphs: " ERRMSG1, lineno, "CHARS" )); error = BDF_Err_Missing_Chars_Field; goto Exit; } error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; p->cnt = font->glyphs_size = _bdf_atoul( p->list.field[1], 0, 10 ); /* Make sure the number of glyphs is non-zero. */ if ( p->cnt == 0 ) font->glyphs_size = 64; if ( FT_NEW_ARRAY( font->glyphs, font->glyphs_size ) ) goto Exit; p->flags |= _BDF_GLYPHS; goto Exit; } /* Check for the ENDFONT field. */ if ( ft_memcmp( line, "ENDFONT", 7 ) == 0 ) { /* Sort the glyphs by encoding. */ ft_qsort( (char *)font->glyphs, font->glyphs_used, sizeof ( bdf_glyph_t ), by_encoding ); p->flags &= ~_BDF_START; goto Exit; } /* Check for the ENDCHAR field. */ if ( ft_memcmp( line, "ENDCHAR", 7 ) == 0 ) { p->glyph_enc = 0; p->flags &= ~_BDF_GLYPH_BITS; goto Exit; } /* Check to see whether a glyph is being scanned but should be */ /* ignored because it is an unencoded glyph. */ if ( ( p->flags & _BDF_GLYPH ) && p->glyph_enc == -1 && p->opts->keep_unencoded == 0 ) goto Exit; /* Check for the STARTCHAR field. */ if ( ft_memcmp( line, "STARTCHAR", 9 ) == 0 ) { /* Set the character name in the parse info first until the */ /* encoding can be checked for an unencoded character. */ FT_FREE( p->glyph_name ); error = _bdf_split( (char *)" +", line, linelen, &p->list,memory ); if ( error ) goto Exit; _bdf_shift( 1, &p->list ); s = _bdf_join( ' ', &slen, &p->list ); if ( FT_NEW_ARRAY( p->glyph_name, slen + 1 ) ) goto Exit; FT_MEM_COPY( p->glyph_name, s, slen + 1 ); p->flags |= _BDF_GLYPH; goto Exit; } /* Check for the ENCODING field. */ if ( ft_memcmp( line, "ENCODING", 8 ) == 0 ) { if ( !( p->flags & _BDF_GLYPH ) ) { /* Missing STARTCHAR field. */ FT_ERROR(( "_bdf_parse_glyphs: " ERRMSG1, lineno, "STARTCHAR" )); error = BDF_Err_Missing_Startchar_Field; goto Exit; } error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; p->glyph_enc = _bdf_atol( p->list.field[1], 0, 10 ); /* Check to see whether this encoding has already been encountered. */ /* If it has then change it to unencoded so it gets added if */ /* indicated. */ if ( p->glyph_enc >= 0 ) { if ( _bdf_glyph_modified( p->have, p->glyph_enc ) ) { /* Emit a message saying a glyph has been moved to the */ /* unencoded area. */ FT_TRACE2(( "_bdf_parse_glyphs: " ACMSG12, p->glyph_enc, p->glyph_name )); p->glyph_enc = -1; font->modified = 1; } else _bdf_set_glyph_modified( p->have, p->glyph_enc ); } if ( p->glyph_enc >= 0 ) { /* Make sure there are enough glyphs allocated in case the */ /* number of characters happen to be wrong. */ if ( font->glyphs_used == font->glyphs_size ) { if ( FT_RENEW_ARRAY( font->glyphs, font->glyphs_size, font->glyphs_size + 64 ) ) goto Exit; FT_MEM_ZERO( font->glyphs + font->glyphs_size, sizeof ( bdf_glyph_t ) * 64 ); /* FZ inutile */ font->glyphs_size += 64; } glyph = font->glyphs + font->glyphs_used++; glyph->name = p->glyph_name; glyph->encoding = p->glyph_enc; /* Reset the initial glyph info. */ p->glyph_name = 0; } else { /* Unencoded glyph. Check to see whether it should */ /* be added or not. */ if ( p->opts->keep_unencoded != 0 ) { /* Allocate the next unencoded glyph. */ if ( font->unencoded_used == font->unencoded_size ) { if ( font->unencoded_size == 0 ) { if ( FT_NEW_ARRAY( font->unencoded, 4 ) ) goto Exit; } else { if ( FT_RENEW_ARRAY( font->unencoded , font->unencoded_size, font->unencoded_size + 4 ) ) goto Exit; } font->unencoded_size += 4; } glyph = font->unencoded + font->unencoded_used; glyph->name = p->glyph_name; glyph->encoding = font->unencoded_used++; } else /* Free up the glyph name if the unencoded shouldn't be */ /* kept. */ FT_FREE( p->glyph_name ); p->glyph_name = 0; } /* Clear the flags that might be added when width and height are */ /* checked for consistency. */ p->flags &= ~( _BDF_GLYPH_WIDTH_CHECK | _BDF_GLYPH_HEIGHT_CHECK ); p->flags |= _BDF_ENCODING; goto Exit; } /* Point at the glyph being constructed. */ if ( p->glyph_enc == -1 ) glyph = font->unencoded + ( font->unencoded_used - 1 ); else glyph = font->glyphs + ( font->glyphs_used - 1 ); /* Check to see whether a bitmap is being constructed. */ if ( p->flags & _BDF_BITMAP ) { /* If there are more rows than are specified in the glyph metrics, */ /* ignore the remaining lines. */ if ( p->row >= (unsigned long)glyph->bbx.height ) { if ( !( p->flags & _BDF_GLYPH_HEIGHT_CHECK ) ) { FT_TRACE2(( "_bdf_parse_glyphs: " ACMSG13, glyph->encoding )); p->flags |= _BDF_GLYPH_HEIGHT_CHECK; font->modified = 1; } goto Exit; } /* Only collect the number of nibbles indicated by the glyph */ /* metrics. If there are more columns, they are simply ignored. */ nibbles = glyph->bpr << 1; bp = glyph->bitmap + p->row * glyph->bpr; for ( i = 0, *bp = 0; i < nibbles; i++ ) { c = line[i]; *bp = (FT_Byte)( ( *bp << 4 ) + a2i[c] ); if ( i + 1 < nibbles && ( i & 1 ) ) *++bp = 0; } /* Remove possible garbage at the right. */ mask_index = ( glyph->bbx.width * p->font->bpp ) & 7; *bp &= nibble_mask[mask_index]; /* If any line has extra columns, indicate they have been removed. */ if ( ( line[nibbles] == '0' || a2i[(int)line[nibbles]] != 0 ) && !( p->flags & _BDF_GLYPH_WIDTH_CHECK ) ) { FT_TRACE2(( "_bdf_parse_glyphs: " ACMSG14, glyph->encoding )); p->flags |= _BDF_GLYPH_WIDTH_CHECK; font->modified = 1; } p->row++; goto Exit; } /* Expect the SWIDTH (scalable width) field next. */ if ( ft_memcmp( line, "SWIDTH", 6 ) == 0 ) { if ( !( p->flags & _BDF_ENCODING ) ) { /* Missing ENCODING field. */ FT_ERROR(( "_bdf_parse_glyphs: " ERRMSG1, lineno, "ENCODING" )); error = BDF_Err_Missing_Encoding_Field; goto Exit; } error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; glyph->swidth = (unsigned short)_bdf_atoul( p->list.field[1], 0, 10 ); p->flags |= _BDF_SWIDTH; goto Exit; } /* Expect the DWIDTH (scalable width) field next. */ if ( ft_memcmp( line, "DWIDTH", 6 ) == 0 ) { error = _bdf_split( (char *)" +", line, linelen, &p->list,memory ); if ( error ) goto Exit; glyph->dwidth = (unsigned short)_bdf_atoul( p->list.field[1], 0, 10 ); if ( !( p->flags & _BDF_SWIDTH ) ) { /* Missing SWIDTH field. Emit an auto correction message and set */ /* the scalable width from the device width. */ FT_TRACE2(( "_bdf_parse_glyphs: " ACMSG9, lineno )); glyph->swidth = (unsigned short)FT_MulDiv( glyph->dwidth, 72000L, (FT_Long)( font->point_size * font->resolution_x ) ); } p->flags |= _BDF_DWIDTH; goto Exit; } /* Expect the BBX field next. */ if ( ft_memcmp( line, "BBX", 3 ) == 0 ) { error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; glyph->bbx.width = _bdf_atos( p->list.field[1], 0, 10 ); glyph->bbx.height = _bdf_atos( p->list.field[2], 0, 10 ); glyph->bbx.x_offset = _bdf_atos( p->list.field[3], 0, 10 ); glyph->bbx.y_offset = _bdf_atos( p->list.field[4], 0, 10 ); /* Generate the ascent and descent of the character. */ glyph->bbx.ascent = (short)( glyph->bbx.height + glyph->bbx.y_offset ); glyph->bbx.descent = (short)( -glyph->bbx.y_offset ); /* Determine the overall font bounding box as the characters are */ /* loaded so corrections can be done later if indicated. */ p->maxas = (short)MAX( glyph->bbx.ascent, p->maxas ); p->maxds = (short)MAX( glyph->bbx.descent, p->maxds ); p->rbearing = (short)( glyph->bbx.width + glyph->bbx.x_offset ); p->maxrb = (short)MAX( p->rbearing, p->maxrb ); p->minlb = (short)MIN( glyph->bbx.x_offset, p->minlb ); p->maxlb = (short)MAX( glyph->bbx.x_offset, p->maxlb ); if ( !( p->flags & _BDF_DWIDTH ) ) { /* Missing DWIDTH field. Emit an auto correction message and set */ /* the device width to the glyph width. */ FT_TRACE2(( "_bdf_parse_glyphs: " ACMSG10, lineno )); glyph->dwidth = glyph->bbx.width; } /* If the BDF_CORRECT_METRICS flag is set, then adjust the SWIDTH */ /* value if necessary. */ if ( p->opts->correct_metrics != 0 ) { /* Determine the point size of the glyph. */ unsigned short sw = (unsigned short)FT_MulDiv( glyph->dwidth, 72000L, (FT_Long)( font->point_size * font->resolution_x ) ); if ( sw != glyph->swidth ) { glyph->swidth = sw; if ( p->glyph_enc == -1 ) _bdf_set_glyph_modified( font->umod, font->unencoded_used - 1 ); else _bdf_set_glyph_modified( font->nmod, glyph->encoding ); p->flags |= _BDF_SWIDTH_ADJ; font->modified = 1; } } p->flags |= _BDF_BBX; goto Exit; } /* And finally, gather up the bitmap. */ if ( ft_memcmp( line, "BITMAP", 6 ) == 0 ) { if ( !( p->flags & _BDF_BBX ) ) { /* Missing BBX field. */ FT_ERROR(( "_bdf_parse_glyphs: " ERRMSG1, lineno, "BBX" )); error = BDF_Err_Missing_Bbx_Field; goto Exit; } /* Allocate enough space for the bitmap. */ glyph->bpr = ( glyph->bbx.width * p->font->bpp + 7 ) >> 3; glyph->bytes = (unsigned short)( glyph->bpr * glyph->bbx.height ); if ( FT_NEW_ARRAY( glyph->bitmap, glyph->bytes ) ) goto Exit; p->row = 0; p->flags |= _BDF_BITMAP; goto Exit; } error = BDF_Err_Invalid_File_Format; Exit: return error; } /* Load the font properties. */ static FT_Error _bdf_parse_properties( char* line, unsigned long linelen, unsigned long lineno, void* call_data, void* client_data ) { unsigned long vlen; _bdf_line_func_t* next; _bdf_parse_t* p; char* name; char* value; char nbuf[128]; FT_Memory memory; FT_Error error = BDF_Err_Ok; FT_UNUSED( lineno ); next = (_bdf_line_func_t *)call_data; p = (_bdf_parse_t *) client_data; memory = p->font->memory; /* Check for the end of the properties. */ if ( ft_memcmp( line, "ENDPROPERTIES", 13 ) == 0 ) { /* If the FONT_ASCENT or FONT_DESCENT properties have not been */ /* encountered yet, then make sure they are added as properties and */ /* make sure they are set from the font bounding box info. */ /* */ /* This is *always* done regardless of the options, because X11 */ /* requires these two fields to compile fonts. */ if ( bdf_get_font_property( p->font, (char *)"FONT_ASCENT" ) == 0 ) { p->font->font_ascent = p->font->bbx.ascent; ft_sprintf( nbuf, "%hd", p->font->bbx.ascent ); error = _bdf_add_property( p->font, (char *)"FONT_ASCENT", nbuf ); if ( error ) goto Exit; FT_TRACE2(( "_bdf_parse_properties: " ACMSG1, p->font->bbx.ascent )); p->font->modified = 1; } if ( bdf_get_font_property( p->font, (char *)"FONT_DESCENT" ) == 0 ) { p->font->font_descent = p->font->bbx.descent; ft_sprintf( nbuf, "%hd", p->font->bbx.descent ); error = _bdf_add_property( p->font, (char *)"FONT_DESCENT", nbuf ); if ( error ) goto Exit; FT_TRACE2(( "_bdf_parse_properties: " ACMSG2, p->font->bbx.descent )); p->font->modified = 1; } p->flags &= ~_BDF_PROPS; *next = _bdf_parse_glyphs; goto Exit; } /* Ignore the _XFREE86_GLYPH_RANGES properties. */ if ( ft_memcmp( line, "_XFREE86_GLYPH_RANGES", 21 ) == 0 ) goto Exit; /* Handle COMMENT fields and properties in a special way to preserve */ /* the spacing. */ if ( ft_memcmp( line, "COMMENT", 7 ) == 0 ) { name = value = line; value += 7; if ( *value ) *value++ = 0; error = _bdf_add_property( p->font, name, value ); if ( error ) goto Exit; } else if ( _bdf_is_atom( line, linelen, &name, &value, p->font ) ) { error = _bdf_add_property( p->font, name, value ); if ( error ) goto Exit; } else { error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; name = p->list.field[0]; _bdf_shift( 1, &p->list ); value = _bdf_join( ' ', &vlen, &p->list ); error = _bdf_add_property( p->font, name, value ); if ( error ) goto Exit; } Exit: return error; } /* Load the font header. */ static FT_Error _bdf_parse_start( char* line, unsigned long linelen, unsigned long lineno, void* call_data, void* client_data ) { unsigned long slen; _bdf_line_func_t* next; _bdf_parse_t* p; bdf_font_t* font; char *s; FT_Memory memory = NULL; FT_Error error = BDF_Err_Ok; FT_UNUSED( lineno ); /* only used in debug mode */ next = (_bdf_line_func_t *)call_data; p = (_bdf_parse_t *) client_data; if ( p->font ) memory = p->font->memory; /* Check for a comment. This is done to handle those fonts that have */ /* comments before the STARTFONT line for some reason. */ if ( ft_memcmp( line, "COMMENT", 7 ) == 0 ) { if ( p->opts->keep_comments != 0 && p->font != 0 ) { linelen -= 7; s = line + 7; if ( *s != 0 ) { s++; linelen--; } error = _bdf_add_comment( p->font, s, linelen ); if ( error ) goto Exit; /* here font is not defined! */ } goto Exit; } if ( !( p->flags & _BDF_START ) ) { memory = p->memory; if ( ft_memcmp( line, "STARTFONT", 9 ) != 0 ) { /* No STARTFONT field is a good indication of a problem. */ error = BDF_Err_Missing_Startfont_Field; goto Exit; } p->flags = _BDF_START; font = p->font = 0; if ( FT_NEW( font ) ) goto Exit; p->font = font; font->memory = p->memory; p->memory = 0; { /* setup */ unsigned long i; bdf_property_t* prop; error = hash_init( &(font->proptbl), memory ); if ( error ) goto Exit; for ( i = 0, prop = (bdf_property_t*)_bdf_properties; i < _num_bdf_properties; i++, prop++ ) { error = hash_insert( prop->name, (void *)i, &(font->proptbl), memory ); if ( error ) goto Exit; } } if ( FT_ALLOC( p->font->internal, sizeof ( hashtable ) ) ) goto Exit; error = hash_init( (hashtable *)p->font->internal,memory ); if ( error ) goto Exit; p->font->spacing = p->opts->font_spacing; p->font->default_glyph = -1; goto Exit; } /* Check for the start of the properties. */ if ( ft_memcmp( line, "STARTPROPERTIES", 15 ) == 0 ) { error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; p->cnt = p->font->props_size = _bdf_atoul( p->list.field[1], 0, 10 ); if ( FT_NEW_ARRAY( p->font->props, p->cnt ) ) goto Exit; p->flags |= _BDF_PROPS; *next = _bdf_parse_properties; goto Exit; } /* Check for the FONTBOUNDINGBOX field. */ if ( ft_memcmp( line, "FONTBOUNDINGBOX", 15 ) == 0 ) { if ( !(p->flags & _BDF_SIZE ) ) { /* Missing the SIZE field. */ FT_ERROR(( "_bdf_parse_start: " ERRMSG1, lineno, "SIZE" )); error = BDF_Err_Missing_Size_Field; goto Exit; } error = _bdf_split( (char *)" +", line, linelen, &p->list , memory ); if ( error ) goto Exit; p->font->bbx.width = _bdf_atos( p->list.field[1], 0, 10 ); p->font->bbx.height = _bdf_atos( p->list.field[2], 0, 10 ); p->font->bbx.x_offset = _bdf_atos( p->list.field[3], 0, 10 ); p->font->bbx.y_offset = _bdf_atos( p->list.field[4], 0, 10 ); p->font->bbx.ascent = (short)( p->font->bbx.height + p->font->bbx.y_offset ); p->font->bbx.descent = (short)( -p->font->bbx.y_offset ); p->flags |= _BDF_FONT_BBX; goto Exit; } /* The next thing to check for is the FONT field. */ if ( ft_memcmp( line, "FONT", 4 ) == 0 ) { error = _bdf_split( (char *)" +", line, linelen, &p->list , memory ); if ( error ) goto Exit; _bdf_shift( 1, &p->list ); s = _bdf_join( ' ', &slen, &p->list ); if ( FT_NEW_ARRAY( p->font->name, slen + 1 ) ) goto Exit; FT_MEM_COPY( p->font->name, s, slen + 1 ); /* If the font name is an XLFD name, set the spacing to the one in */ /* the font name. If there is no spacing fall back on the default. */ error = _bdf_set_default_spacing( p->font, p->opts ); if ( error ) goto Exit; p->flags |= _BDF_FONT_NAME; goto Exit; } /* Check for the SIZE field. */ if ( ft_memcmp( line, "SIZE", 4 ) == 0 ) { if ( !( p->flags & _BDF_FONT_NAME ) ) { /* Missing the FONT field. */ FT_ERROR(( "_bdf_parse_start: " ERRMSG1, lineno, "FONT" )); error = BDF_Err_Missing_Font_Field; goto Exit; } error = _bdf_split( (char *)" +", line, linelen, &p->list, memory ); if ( error ) goto Exit; p->font->point_size = _bdf_atoul( p->list.field[1], 0, 10 ); p->font->resolution_x = _bdf_atoul( p->list.field[2], 0, 10 ); p->font->resolution_y = _bdf_atoul( p->list.field[3], 0, 10 ); /* Check for the bits per pixel field. */ if ( p->list.used == 5 ) { unsigned short bitcount, i, shift; p->font->bpp = (unsigned short)_bdf_atos( p->list.field[4], 0, 10 ); /* Only values 1, 2, 4, 8 are allowed. */ shift = p->font->bpp; bitcount = 0; for ( i = 0; shift > 0; i++ ) { if ( shift & 1 ) bitcount = i; shift >>= 1; } shift = (short)( ( bitcount > 3 ) ? 8 : ( 1 << bitcount ) ); if ( p->font->bpp > shift || p->font->bpp != shift ) { /* select next higher value */ p->font->bpp = (unsigned short)( shift << 1 ); FT_TRACE2(( "_bdf_parse_start: " ACMSG11, p->font->bpp )); } } else p->font->bpp = 1; p->flags |= _BDF_SIZE; goto Exit; } error = BDF_Err_Invalid_File_Format; Exit: return error; } /*************************************************************************/ /* */ /* API. */ /* */ /*************************************************************************/ FT_LOCAL_DEF( FT_Error ) bdf_load_font( FT_Stream stream, FT_Memory extmemory, bdf_options_t* opts, bdf_font_t* *font ) { unsigned long lineno; _bdf_parse_t *p; FT_Memory memory = extmemory; FT_Error error = BDF_Err_Ok; if ( FT_ALLOC( p, sizeof ( _bdf_parse_t ) ) ) goto Exit; memory = NULL; p->opts = (bdf_options_t*)( ( opts != 0 ) ? opts : &_bdf_opts ); p->minlb = 32767; p->memory = extmemory; /* only during font creation */ error = _bdf_readstream( stream, _bdf_parse_start, (void *)p, &lineno ); if ( error ) goto Exit; if ( p->font != 0 ) { /* If the font is not proportional, set the font's monowidth */ /* field to the width of the font bounding box. */ memory = p->font->memory; if ( p->font->spacing != BDF_PROPORTIONAL ) p->font->monowidth = p->font->bbx.width; /* If the number of glyphs loaded is not that of the original count, */ /* indicate the difference. */ if ( p->cnt != p->font->glyphs_used + p->font->unencoded_used ) { FT_TRACE2(( "bdf_load_font: " ACMSG15, p->cnt, p->font->glyphs_used + p->font->unencoded_used )); p->font->modified = 1; } /* Once the font has been loaded, adjust the overall font metrics if */ /* necessary. */ if ( p->opts->correct_metrics != 0 && ( p->font->glyphs_used > 0 || p->font->unencoded_used > 0 ) ) { if ( p->maxrb - p->minlb != p->font->bbx.width ) { FT_TRACE2(( "bdf_load_font: " ACMSG3, p->font->bbx.width, p->maxrb - p->minlb )); p->font->bbx.width = (unsigned short)( p->maxrb - p->minlb ); p->font->modified = 1; } if ( p->font->bbx.x_offset != p->minlb ) { FT_TRACE2(( "bdf_load_font: " ACMSG4, p->font->bbx.x_offset, p->minlb )); p->font->bbx.x_offset = p->minlb; p->font->modified = 1; } if ( p->font->bbx.ascent != p->maxas ) { FT_TRACE2(( "bdf_load_font: " ACMSG5, p->font->bbx.ascent, p->maxas )); p->font->bbx.ascent = p->maxas; p->font->modified = 1; } if ( p->font->bbx.descent != p->maxds ) { FT_TRACE2(( "bdf_load_font: " ACMSG6, p->font->bbx.descent, p->maxds )); p->font->bbx.descent = p->maxds; p->font->bbx.y_offset = (short)( -p->maxds ); p->font->modified = 1; } if ( p->maxas + p->maxds != p->font->bbx.height ) { FT_TRACE2(( "bdf_load_font: " ACMSG7, p->font->bbx.height, p->maxas + p->maxds )); p->font->bbx.height = (unsigned short)( p->maxas + p->maxds ); } if ( p->flags & _BDF_SWIDTH_ADJ ) FT_TRACE2(( "bdf_load_font: " ACMSG8 )); } } if ( p->flags & _BDF_START ) { { /* The ENDFONT field was never reached or did not exist. */ if ( !( p->flags & _BDF_GLYPHS ) ) /* Error happened while parsing header. */ FT_ERROR(( "bdf_load_font: " ERRMSG2, lineno )); else /* Error happened when parsing glyphs. */ FT_ERROR(( "bdf_load_font: " ERRMSG3, lineno )); } } /* Free up the list used during the parsing. */ if ( memory != NULL ) FT_FREE( p->list.field ); if ( p->font != 0 ) { /* Make sure the comments are NULL terminated if they exist. */ memory = p->font->memory; if ( p->font->comments_len > 0 ) { if ( FT_RENEW_ARRAY( p->font->comments, p->font->comments_len, p->font->comments_len + 1 ) ) goto Exit; p->font->comments[p->font->comments_len] = 0; } } else if ( error == BDF_Err_Ok ) error = BDF_Err_Invalid_File_Format; *font = p->font; Exit: if ( p ) { memory = extmemory; FT_FREE( p ); } return error; } FT_LOCAL_DEF( void ) bdf_free_font( bdf_font_t* font ) { bdf_property_t* prop; unsigned long i; bdf_glyph_t* glyphs; FT_Memory memory; if ( font == 0 ) return; memory = font->memory; FT_FREE( font->name ); /* Free up the internal hash table of property names. */ if ( font->internal ) { hash_free( (hashtable *)font->internal, memory ); FT_FREE( font->internal ); } /* Free up the comment info. */ FT_FREE( font->comments ); /* Free up the properties. */ for ( i = 0; i < font->props_size; i++ ) { if ( font->props[i].format == BDF_ATOM ) FT_FREE( font->props[i].value.atom ); } FT_FREE( font->props ); /* Free up the character info. */ for ( i = 0, glyphs = font->glyphs; i < font->glyphs_used; i++, glyphs++ ) { FT_FREE( glyphs->name ); FT_FREE( glyphs->bitmap ); } for ( i = 0, glyphs = font->unencoded; i < font->unencoded_used; i++, glyphs++ ) { FT_FREE( glyphs->name ); FT_FREE( glyphs->bitmap ); } FT_FREE( font->glyphs ); FT_FREE( font->unencoded ); /* Free up the overflow storage if it was used. */ for ( i = 0, glyphs = font->overflow.glyphs; i < font->overflow.glyphs_used; i++, glyphs++ ) { FT_FREE( glyphs->name ); FT_FREE( glyphs->bitmap ); } FT_FREE( font->overflow.glyphs ); /* bdf_cleanup */ hash_free( &(font->proptbl), memory ); /* Free up the user defined properties. */ for (prop = font->user_props, i = 0; i < font->nuser_props; i++, prop++ ) { FT_FREE( prop->name ); if ( prop->format == BDF_ATOM ) FT_FREE( prop->value.atom ); } FT_FREE( font->user_props ); /* FREE( font ); */ /* XXX Fixme */ } FT_LOCAL_DEF( bdf_property_t * ) bdf_get_font_property( bdf_font_t* font, char* name ) { hashnode hn; if ( font == 0 || font->props_size == 0 || name == 0 || *name == 0 ) return 0; hn = hash_lookup( name, (hashtable *)font->internal ); return hn ? ( font->props + (unsigned long)hn->data ) : 0; } /* END */