ref: 33aab6e5b6c14d3cf2c4334f79a8debf959c9e38
dir: /src/macfond/fonddrvr.c/
/***************************************************************************/
/* */
/* fonddrvr.c */
/* */
/* Mac FOND font driver. Written by [email protected]. */
/* */
/* Copyright 1996-2000 by */
/* Just van Rossum, 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. */
/* */
/***************************************************************************/
/*
Notes
Mac suitcase files can (and often do!) contain multiple fonts. To
support this I use the face_index argument of FT_(Open|New)_Face()
functions, and pretend the suitcase file is a collection.
Warning: although the FOND driver sets face->num_faces field to the
number of available fonts, but the Type 1 driver sets it to 1 anyway.
So this field is currently not reliable, and I don't see a clean way
to resolve that. The face_index argument translates to
Get1IndResource( 'FOND', face_index + 1 );
so clients should figure out the resource index of the FOND.
(I'll try to provide some example code for this at some point.)
The Mac FOND driver works roughly like this:
- Check whether the offered stream points to a Mac suitcase file.
This is done by checking the file type: it has to be 'FFIL' or 'tfil'.
The stream that gets passed to our init_face() routine is a stdio
stream, which isn't usable for us, since the FOND resources live
in the resource fork. So we just grab the stream->pathname field.
- Read the FOND resource into memory, then check whether there is
a TrueType font and/or (!) a Type 1 font available.
- If there is a Type 1 font available (as a separate 'LWFN' file),
read it's data into memory, massage it slightly so it becomes
PFB data, wrap it into a memory stream, load the Type 1 driver
and delegate the rest of the work to it, by calling
t1_driver->interface.init_face( ... )
(XXX TODO: after this has been done, the kerning data from the FOND
resource should be appended to the face: on the Mac there are usually
no AFM files available. However, this is tricky since we need to map
Mac char codes to ps glyph names to glyph ID's...)
- If there is a TrueType font (an 'sfnt' resource), read it into
memory, wrap it into a memory stream, load the TrueType driver
and delegate the rest of the work to it, by calling
tt_driver->interface.init_face( ... )
- In both cases, the original stream gets closed and *reinitialized*
to become a memory stream. Additionally, the face->driver field --
which is set to the FOND driver upon entering our init_face() --
gets *reset* to either the TT or the T1 driver. I had to make a minor
change to ftobjs.c to make this work.
*/
#include <freetype/internal/ttobjs.h>
#include <freetype/internal/t1objs.h>
#include <Resources.h>
#include <Fonts.h>
#include <Errors.h>
#include <ctype.h> /* for isupper() and isalnum() */
#include <stdlib.h> /* for malloc() and free() */
/* set PREFER_LWFN to 1 if LWFN (Type 1) is preferred over
TrueType in case *both* are available */
#ifndef PREFER_LWFN
#define PREFER_LWFN 1
#endif
static
FT_Error init_driver( FT_Driver driver )
{
/* we don't keep no stinkin' state ;-) */
return FT_Err_Ok;
}
static
FT_Error done_driver( FT_Driver driver )
{
return FT_Err_Ok;
}
/* MacRoman glyph names, needed for FOND kerning support. */
/* XXX which is not implemented yet! */
static const char* mac_roman_glyph_names[256] = {
".null",
};
/* The FOND face object is just a union of TT and T1: both is possible,
and we don't need anything else. */
typedef union FOND_FaceRec_
{
TT_FaceRec tt;
T1_FaceRec t1;
} FOND_FaceRec, *FOND_Face;
/* given a pathname, fill in a File Spec */
static
int make_file_spec( char* pathname, FSSpec *spec )
{
Str255 p_path;
int path_len;
/* convert path to a pascal string */
path_len = strlen( pathname );
if ( path_len > 255 )
return -1;
p_path[0] = path_len;
strncpy( (char*)p_path+1, pathname, path_len );
if ( FSMakeFSSpec( 0, 0, p_path, spec ) != noErr )
return -1;
else
return 0;
}
/* is_suitcase() returns true if the file specified by 'pathname'
is a Mac suitcase file, and false if it ain't. */
static
int is_suitcase( FSSpec *spec )
{
FInfo finfo;
if ( FSpGetFInfo( spec, &finfo ) != noErr )
return 0;
if ( finfo.fdType == 'FFIL' || finfo.fdType == 'tfil' )
return 1;
else
return 0;
}
/* Quick 'n' Dirty Pascal string to C string converter. */
static
char * p2c_str( unsigned char *pstr )
{
static char cstr[256];
strncpy( cstr, (char*)pstr+1, pstr[0] );
cstr[pstr[0]] = '\0';
return cstr;
}
/* Given a PostScript font name, create the Macintosh LWFN file name */
static
void create_lwfn_name( char* ps_name, Str255 lwfn_file_name )
{
int max = 5, count = 0;
unsigned char* p = lwfn_file_name;
char* q = ps_name;
lwfn_file_name[0] = 0;
while ( *q )
{
if ( isupper(*q) )
{
if ( count )
max = 3;
count = 0;
}
if ( count < max && (isalnum(*q) || *q == '_' ) )
{
*++p = *q;
lwfn_file_name[0]++;
count++;
}
q++;
}
}
/* Suck the relevant info out of the FOND data */
static
FT_Error parse_fond( char* fond_data,
short *have_sfnt,
short *sfnt_id,
Str255 lwfn_file_name )
{
AsscEntry* assoc;
FamRec* fond;
*sfnt_id = *have_sfnt = 0;
lwfn_file_name[0] = 0;
fond = (FamRec*)fond_data;
assoc = (AsscEntry*)(fond_data + sizeof(FamRec) + 2);
if ( assoc->fontSize == 0 )
{
*have_sfnt = 1;
*sfnt_id = assoc->fontID;
}
if ( fond->ffStylOff )
{
unsigned char* p = (unsigned char*)fond_data;
StyleTable* style;
unsigned short string_count;
unsigned char* name_table = 0;
char ps_name[256];
unsigned char* names[64];
int i;
p += fond->ffStylOff;
style = (StyleTable*)p;
p += sizeof(StyleTable);
string_count = *(unsigned short*)(p);
p += sizeof(short);
for ( i=0 ; i<string_count && i<64; i++ )
{
names[i] = p;
p += names[i][0];
p++;
}
strcpy(ps_name, p2c_str(names[0])); /* Family name */
if ( style->indexes[0] > 1 )
{
unsigned char* suffixes = names[style->indexes[0]-1];
for ( i=1; i<=suffixes[0]; i++ )
strcat( ps_name, p2c_str(names[suffixes[i]-1]) );
}
create_lwfn_name( ps_name, lwfn_file_name );
}
return FT_Err_Ok;
}
/* Read Type 1 data from the POST resources inside the LWFN file, return a
PFB buffer -- apparently FT doesn't like a pure binary T1 stream. */
static
char* read_type1_data( FT_Memory memory, FSSpec* lwfn_spec, unsigned long *size )
{
short res_ref, res_id;
unsigned char *buffer, *p;
unsigned long total_size = 0;
Handle post_data;
res_ref = FSpOpenResFile( lwfn_spec, fsRdPerm );
if ( ResError() )
return NULL;
UseResFile( res_ref );
/* first pass: load all POST resources, and determine the size of
the output buffer */
res_id = 501;
for (;;)
{
post_data = Get1Resource( 'POST', res_id++ );
if ( post_data == NULL ) break;
if ( (*post_data)[0] != 5 )
total_size += GetHandleSize( post_data ) + 4;
else
total_size += 2;
}
buffer = memory->alloc( memory, total_size );
if ( !buffer )
goto error;
/* second pass: append all POST data to the buffer, add PFB fields */
p = buffer;
res_id = 501;
for (;;)
{
long chunk_size;
char code;
post_data = Get1Resource( 'POST', res_id++ );
if ( post_data == NULL ) break;
chunk_size = GetHandleSize( post_data ) - 2;
*p++ = 0x80;
code = (*post_data)[0];
if ( code == 5 )
*p++ = 0x03; /* the end */
else if ( code == 2 )
*p++ = 0x02; /* binary segment */
else
*p++ = 0x01; /* ASCII segment */
if ( code != 5 )
{
*p++ = chunk_size & 0xFF;
*p++ = (chunk_size >> 8) & 0xFF;
*p++ = (chunk_size >> 16) & 0xFF;
*p++ = (chunk_size >> 24) & 0xFF;
}
memcpy( p, *post_data + 2, chunk_size );
p += chunk_size;
}
CloseResFile( res_ref );
*size = total_size;
return (char*)buffer;
error:
CloseResFile( res_ref );
return NULL;
}
/* Finalizer for the sfnt stream */
static
void sfnt_stream_close( FT_Stream stream )
{
Handle sfnt_data = stream->descriptor.pointer;
HUnlock( sfnt_data );
DisposeHandle( sfnt_data );
stream->descriptor.pointer = NULL;
stream->size = 0;
stream->base = 0;
stream->close = 0;
}
/* Finalizer for the LWFN stream */
static
void lwfn_stream_close( FT_Stream stream )
{
stream->memory->free( stream->memory, stream->base );
stream->descriptor.pointer = NULL;
stream->size = 0;
stream->base = 0;
stream->close = 0;
}
/* Main entry point. Determine whether we're dealing with a Mac
suitcase or not; then determine if we're dealing with Type 1
or TrueType; delegate the work to the proper driver. */
static
FT_Error init_face( FT_Stream stream,
FT_Long face_index,
FT_Face face )
{
FT_Error err;
FSSpec suit_spec, lwfn_spec;
short res_ref;
Handle fond_data, sfnt_data;
short res_index, sfnt_id, have_sfnt;
Str255 lwfn_file_name;
if ( !stream->pathname.pointer )
return FT_Err_Invalid_Argument;
if ( make_file_spec( stream->pathname.pointer, &suit_spec ) )
return FT_Err_Invalid_Argument;
if ( !is_suitcase( &suit_spec ) )
return FT_Err_Invalid_File_Format;
res_ref = FSpOpenResFile( &suit_spec, fsRdPerm );
if ( ResError() )
return FT_Err_Invalid_File_Format;
UseResFile( res_ref );
/* face_index may be -1, in which case we
just need to do a sanity check */
if ( face_index < 0)
res_index = 1;
else
res_index = face_index + 1;
fond_data = Get1IndResource( 'FOND', res_index );
if ( ResError() )
{
CloseResFile( res_ref );
return FT_Err_Invalid_File_Format;
}
/* Set the number of faces. Not that it helps much: the t1 driver
just sets it to 1 anyway :-( */
face->num_faces = Count1Resources('FOND');
HLock( fond_data );
err = parse_fond( *fond_data, &have_sfnt, &sfnt_id, lwfn_file_name );
HUnlock( fond_data );
if ( err )
{
CloseResFile( res_ref );
return FT_Err_Invalid_Resource_Handle;
}
if ( lwfn_file_name[0] )
{
/* We look for the LWFN file in the same directory as the suitcase
file. ATM would look in other places, too, but this is the usual
situation. */
err = FSMakeFSSpec( suit_spec.vRefNum, suit_spec.parID, lwfn_file_name, &lwfn_spec );
if ( err != noErr )
lwfn_file_name[0] = 0; /* no LWFN file found */
}
if ( lwfn_file_name[0] && ( !have_sfnt || PREFER_LWFN ) )
{
FT_Driver t1_driver;
char* type1_data;
unsigned long size;
CloseResFile( res_ref ); /* XXX still need to read kerning! */
type1_data = read_type1_data( stream->memory, &lwfn_spec, &size );
if ( !type1_data )
{
return FT_Err_Out_Of_Memory;
}
#if 0
{
FILE* f;
char * path;
path = p2c_str( lwfn_file_name );
strcat( path, ".PFB" );
f = fopen(path, "wb");
if ( f )
{
fwrite( type1_data, 1, size, f );
fclose( f );
}
}
#endif
/* reinitialize the stream */
if ( stream->close )
stream->close( stream );
stream->close = lwfn_stream_close;
stream->read = 0; /* it's now memory based */
stream->base = type1_data;
stream->size = size;
stream->pos = 0; /* just in case */
/* delegate the work to the Type 1 driver */
t1_driver = FT_Get_Driver( face->driver->library, "type1" );
if ( t1_driver )
{
face->driver = t1_driver;
return t1_driver->interface.init_face( stream, 0, face );
}
else
return FT_Err_Invalid_Driver_Handle;
}
else if ( have_sfnt )
{
FT_Driver tt_driver;
sfnt_data = Get1Resource( 'sfnt', sfnt_id );
if ( ResError() )
{
CloseResFile( res_ref );
return FT_Err_Invalid_Resource_Handle;
}
DetachResource( sfnt_data );
CloseResFile( res_ref );
HLockHi( sfnt_data );
/* reinitialize the stream */
if ( stream->close )
stream->close( stream );
stream->close = sfnt_stream_close;
stream->descriptor.pointer = sfnt_data;
stream->read = 0; /* it's now memory based */
stream->base = *sfnt_data;
stream->size = GetHandleSize( sfnt_data );
stream->pos = 0; /* just in case */
/* delegate the work to the TrueType driver */
tt_driver = FT_Get_Driver( face->driver->library, "truetype" );
if ( tt_driver )
{
face->driver = tt_driver;
return tt_driver->interface.init_face( stream, 0, face );
}
else
return FT_Err_Invalid_Driver_Handle;
}
else
{
CloseResFile( res_ref );
}
return FT_Err_Invalid_File_Format;
}
static
void done_face( FOND_Face face )
{
/*
We'll *only* get here if init_face() doesn't succeed,
since if it *does* succeed, it has set the face->driver
to either the TrueType driver or the Type 1 driver.
And since we promise not leave any garbage if init_face()
fails, there's nothing left to do.
*/
}
/* The FT_DriverInterface structure is defined in ftdriver.h. */
const FT_DriverInterface fond_driver_interface =
{
sizeof ( FT_DriverRec ),
sizeof ( FOND_FaceRec ),
0,
0,
"fond", /* driver name */
100, /* driver version == 1.0 */
200, /* driver requires FreeType 2.0 or above */
(void*)0,
(FTDriver_initDriver) init_driver,
(FTDriver_doneDriver) done_driver,
(FTDriver_getInterface) 0,
(FTDriver_initFace) init_face,
(FTDriver_doneFace) done_face,
(FTDriver_getKerning) 0,
(FTDriver_initSize) 0,
(FTDriver_doneSize) 0,
(FTDriver_setCharSizes) 0,
(FTDriver_setPixelSizes) 0,
(FTDriver_initGlyphSlot) 0,
(FTDriver_doneGlyphSlot) 0,
(FTDriver_loadGlyph) 0,
(FTDriver_getCharIndex) 0,
};
/*************************************************************************/
/* */
/* <Function> */
/* getDriverInterface */
/* */
/* <Description> */
/* This function is used when compiling the FOND driver as a */
/* shared library (`.DLL' or `.so'). It will be used by the */
/* high-level library of FreeType to retrieve the address of the */
/* driver's generic interface. */
/* */
/* It shouldn't be implemented in a static build, as each driver must */
/* have the same function as an exported entry point. */
/* */
/* <Return> */
/* The address of the TrueType's driver generic interface. The */
/* format-specific interface can then be retrieved through the method */
/* interface->get_format_interface. */
/* */
#ifdef FT_CONFIG_OPTION_DYNAMIC_DRIVERS
EXPORT_FUNC
FT_DriverInterface* getDriverInterface( void )
{
return &fond_driver_interface;
}
#endif /* CONFIG_OPTION_DYNAMIC_DRIVERS */
/* END */