3 Functions for loading external fonts.
5 Extension module for the rfxswf library.
6 Part of the swftools package.
8 Copyright (c) 2003, 2004, 2005 Matthias Kramm
10 This program is free software; you can redistribute it and/or modify
11 it under the terms of the GNU General Public License as published by
12 the Free Software Foundation; either version 2 of the License, or
13 (at your option) any later version.
15 This program is distributed in the hope that it will be useful,
16 but WITHOUT ANY WARRANTY; without even the implied warranty of
17 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 GNU General Public License for more details.
20 You should have received a copy of the GNU General Public License
21 along with this program; if not, write to the Free Software
22 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
25 #include "../config.h"
26 #include "gfxdevice.h"
33 static int loadfont_scale = 64;
34 static int full_unicode = 1;
38 #ifdef HAVE_FT2BUILD_H
40 #include FT_FREETYPE_H
43 #include FT_SFNT_NAMES_H
44 #include FT_TRUETYPE_IDS_H
47 #include <freetype/freetype.h>
48 #include <freetype/ftglyph.h>
49 #include <freetype/ftsizes.h>
50 #include <freetype/ftsnames.h>
51 #include <freetype/ttnameid.h>
52 #include <freetype/ftoutln.h>
55 /* Setting subpixels to 64 also means that the "point size" of the
56 font outlines will be 64. So the font, when rendered at original
57 size (i.e., the swf fontsize is 1024) will have the same size as
58 if it was rendered at 64pt */
61 #define FT_SUBPIXELS 64
63 typedef struct _gfxdrawinfo_t {
68 static int ft_move_to(const FT_Vector* _to, void* user)
70 gfxdrawinfo_t* info = (gfxdrawinfo_t*)user;
71 gfxdrawer_t* draw = info->draw;
72 double x = _to->x*FT_SCALE/(float)FT_SUBPIXELS;
73 double y = -_to->y*FT_SCALE/(float)FT_SUBPIXELS;
74 draw->moveTo(draw, x,y);
77 static int ft_line_to(const FT_Vector* _to, void* user)
79 gfxdrawinfo_t* info = (gfxdrawinfo_t*)user;
80 gfxdrawer_t* draw = info->draw;
81 double x = _to->x*FT_SCALE/(float)FT_SUBPIXELS;
82 double y = -_to->y*FT_SCALE/(float)FT_SUBPIXELS;
83 draw->lineTo(draw, x,y);
86 static int ft_cubic_to(const FT_Vector* _c1, const FT_Vector* _c2, const FT_Vector* _to, void* user)
88 gfxdrawinfo_t* info = (gfxdrawinfo_t*)user;
89 gfxdrawer_t* draw = info->draw;
90 double tox = _to->x*FT_SCALE/(float)FT_SUBPIXELS;
91 double toy = -_to->y*FT_SCALE/(float)FT_SUBPIXELS;
92 double c1x = _c1->x*FT_SCALE/(float)FT_SUBPIXELS;
93 double c1y = -_c1->y*FT_SCALE/(float)FT_SUBPIXELS;
94 double c2x = _c2->x*FT_SCALE/(float)FT_SUBPIXELS;
95 double c2y = -_c2->y*FT_SCALE/(float)FT_SUBPIXELS;
96 gfxdraw_cubicTo(draw, c1x, c1y, c2x, c2y, tox, toy, info->quality);
99 static int ft_conic_to(const FT_Vector* _c, const FT_Vector* _to, void* user)
101 gfxdrawinfo_t* info = (gfxdrawinfo_t*)user;
102 gfxdrawer_t* draw = info->draw;
103 double tox = _to->x*FT_SCALE/(float)FT_SUBPIXELS;
104 double toy = -_to->y*FT_SCALE/(float)FT_SUBPIXELS;
105 double cx = _c->x*FT_SCALE/(float)FT_SUBPIXELS;
106 double cy = -_c->y*FT_SCALE/(float)FT_SUBPIXELS;
107 gfxdraw_conicTo(draw, cx,cy, tox,toy, info->quality);
110 static FT_Outline_Funcs outline_functions =
119 static FT_Library ftlibrary = 0;
121 static gfxglyph_t cloneGlyph(gfxglyph_t*src)
124 memset(&dest, 0, sizeof(dest));
126 dest.name = strdup(src->name);
127 dest.advance = src->advance;
128 dest.unicode = src->unicode;
129 dest.line = gfxline_clone(src->line);
133 static void glyph_clear(gfxglyph_t*g)
137 free((void*)g->name); g->name = 0;
139 gfxline_free(g->line);g->line = 0;
142 static int errorno = 0;
146 gfxfont_t* gfxfont_load(char*id, char*filename, unsigned int flags, double quality)
150 const char* fontname = 0;
156 int*glyph2unicode = 0;
160 int has_had_errors = 0;
164 if(FT_Init_FreeType(&ftlibrary)) {
165 fprintf(stderr, "Couldn't init freetype library!\n");
169 error = FT_New_Face(ftlibrary, filename, 0, &face);
170 FT_Set_Pixel_Sizes (face, 16*loadfont_scale, 16*loadfont_scale);
172 printf("gfxfont_load(%s, %s, %f)\n", id, filename, quality);
176 fprintf(stderr, "Couldn't load file %s- not a TTF file? (error=%02x)\n", filename, error);
179 if(face->num_glyphs <= 0) {
180 fprintf(stderr, "File %s contains %d glyphs\n", filename, (int)face->num_glyphs);
184 font = (gfxfont_t*)rfx_calloc(sizeof(gfxfont_t));
185 //font->style = ((face->style_flags&FT_STYLE_FLAG_ITALIC)?FONT_STYLE_ITALIC:0) |((face->style_flags&FT_STYLE_FLAG_BOLD)?FONT_STYLE_BOLD:0);
186 //font->ascent = abs(face->ascender)*FT_SCALE*loadfont_scale*20/FT_SUBPIXELS/2; //face->bbox.xMin;
187 //font->descent = abs(face->descender)*FT_SCALE*loadfont_scale*20/FT_SUBPIXELS/2; //face->bbox.xMax;
188 //font->leading = font->layout->ascent + font->layout->descent;
189 //font->encoding = FONT_ENCODING_UNICODE;
190 font->max_unicode = 0;
191 font->id = strdup(id);
193 font->glyphs = (gfxglyph_t*)rfx_calloc(face->num_glyphs*sizeof(gfxglyph_t));
194 glyph2unicode = (int*)rfx_calloc(face->num_glyphs*sizeof(int));
195 glyph2glyph = (int*)rfx_calloc(face->num_glyphs*sizeof(int));
197 if(FT_HAS_GLYPH_NAMES(face)) {
198 //font->glyphnames = rfx_calloc(face->num_glyphs*sizeof(char*));
201 fontname = FT_Get_Postscript_Name(face);
204 for(t=0;t<face->num_charmaps;t++) {
205 printf("possible encoding: %c%c%c%c (%d of %d)\n",
206 (face->charmaps[t]->encoding >> 24)&255,
207 (face->charmaps[t]->encoding >> 16)&255,
208 (face->charmaps[t]->encoding >> 8)&255,
209 (face->charmaps[t]->encoding >> 0)&255,
210 t+1, face->num_charmaps
217 charcode = FT_Get_First_Char(face, &gindex);
221 if(gindex >= 0 && gindex<face->num_glyphs) {
222 if(!glyph2unicode[gindex]) {
223 glyph2unicode[gindex] = charcode;
224 if(charcode + 1 > font->max_unicode) {
225 font->max_unicode = charcode + 1;
229 charcode = FT_Get_Next_Char(face, charcode, &gindex);
234 printf("ENCODING: %c%c%c%c (%d of %d) max_unicode=%d\n",
235 (face->charmap->encoding >> 24)&255,
236 (face->charmap->encoding >> 16)&255,
237 (face->charmap->encoding >> 8)&255,
238 (face->charmap->encoding >> 0)&255,
239 charmap, face->num_charmaps, font->max_unicode
242 printf("ENCODING: NONE (%d of %d) max_unicode=%d\n",
243 charmap, face->num_charmaps, font->max_unicode
248 /* if we didn't find a single encoding character, try
249 the font's charmaps instead. That usually means that
250 the encoding is no longer unicode.
251 TODO: find a way to convert the encoding to unicode
253 if(font->max_unicode == 0 && charmap < face->num_charmaps-1
254 && face->charmaps[charmap+1]->encoding != 0x41444243 /* adbc, custom */
255 && face->charmaps[charmap+1]->encoding != 0x61726d6e /* armn */
259 FT_Set_Charmap(face, face->charmaps[charmap]);
264 /* TODO: if isunicode is 1, we now need to permutate the character
265 order so that each character is at it's encoding position */
268 font->max_unicode = 65535;
270 font->unicode2glyph = (int*)rfx_calloc(font->max_unicode*sizeof(int));
272 for(t=0;t<font->max_unicode;t++) {
273 int g = FT_Get_Char_Index(face, t);
274 if(!g || g>=face->num_glyphs)
276 font->unicode2glyph[t] = g;
279 printf("u%d ->%d\n", t, g);
282 if(!glyph2unicode[g]) {
283 glyph2unicode[g] = t;
287 font->max_unicode = max_unicode;
289 font->num_glyphs = 0;
292 for(t=0; t < face->num_glyphs; t++) {
293 if(FT_HAS_GLYPH_NAMES(face)) {
295 error = FT_Get_Glyph_Name(face, t, name, 127);
296 if(!error && name[0] && !strstr(name, "notdef")) {
303 for(t=0; t < face->num_glyphs; t++) {
312 font->glyphs[font->num_glyphs].advance = 0;
313 font->glyphs[font->num_glyphs].line = 0;
314 font->glyphs[font->num_glyphs].unicode = glyph2unicode[t];
315 font->glyphs[font->num_glyphs].name = 0;
317 if(FT_HAS_GLYPH_NAMES(face) && (num_names >= face->num_glyphs/10 || num_names > 2)) {
319 error = FT_Get_Glyph_Name(face, t, name, 127);
320 if(!error && name[0] && !strstr(name, "notdef")) {
321 font->glyphs[font->num_glyphs].name = strdup(name);
326 #if 0 // some cantonese pdfs fail to work if this is activated
328 if(has_had_errors && (isunicode && !glyph2unicode[t]) && !hasname && t>=256) {
329 /* some freetype versions crash or corrupt memory if we try to load
330 characters (without unicode index or name) above 256 for some fonts.
331 So skip those characters once the first error occured */
337 error = FT_Load_Glyph(face, t, FT_LOAD_NO_BITMAP);
340 fprintf(stderr, "Warning: glyph %d/%d (unicode %d, name %s) has return code %d\n", t, (int)face->num_glyphs, glyph2unicode[t], name, error);
342 fprintf(stderr, "Warning: glyph %d/%d (unicode %d) has return code %d\n", t, (int)face->num_glyphs, glyph2unicode[t], error);
346 if(!has_had_errors) {
348 if(fontname && *fontname) {
349 fprintf(stderr, "font has been copied to %s.ttf\n", fontname);
350 sprintf(buf, "cp %s %s.ttf", filename, fontname);
352 fprintf(stderr, "font has been copied to badfont%d.ttf\n", errorno);
353 sprintf(buf, "cp %s badfont%d.ttf", filename, errorno);
363 error = FT_Get_Glyph(face->glyph, &glyph);
365 fprintf(stderr, "Couldn't get glyph %d/%d, error:%d\n", t, (int)face->num_glyphs, error);
373 gfxdrawer_target_gfxline(&draw);
375 info.quality = quality;
377 //error = FT_Outline_Decompose(&face->glyph->outline, &outline_functions, &info);
378 error = FT_Outline_Decompose(&face->glyph->outline, &outline_functions, &info);
381 fprintf(stderr, "Couldn't decompose glyph %d\n", t);
382 gfxline_free((gfxline_t*)draw.result(&draw));
383 FT_Done_Glyph(glyph);
386 font->glyphs[font->num_glyphs].advance = glyph->advance.x/65536;
387 font->glyphs[font->num_glyphs].line = (gfxline_t*)draw.result(&draw);
389 l = font->glyphs[font->num_glyphs].line;
391 if(l->type != gfx_moveTo) {
397 gfxline_free(font->glyphs[font->num_glyphs].line);
398 font->glyphs[font->num_glyphs].line = 0;
399 font->glyphs[font->num_glyphs].advance = 0;
401 /* Some PDFs created e.g. by InDesign tend to create
402 fonts with reduced (empty) characters, which still
403 have unicode indices attached to them.
404 Remove that information, in order to not confuse
405 any converter applications.
407 font->glyphs[font->num_glyphs].unicode = 0;
408 if(font->glyphs[font->num_glyphs].name) {
409 free((void*)font->glyphs[font->num_glyphs].name);
410 font->glyphs[font->num_glyphs].name = 0;
412 FT_Done_Glyph(glyph);
418 FT_Done_Glyph(glyph);
419 font->glyphs[font->num_glyphs].unicode = glyph2unicode[t];
422 glyph2glyph[t] = font->num_glyphs;
426 /* notice: if skip_unused is true, font->glyph2unicode, font->glyphnames and font->layout->bounds will
427 have more memory allocated than just font->num_glyphs, but only the first font->numchars
430 for(t=0;t<font->max_unicode;t++) {
431 if(font->unicode2glyph[t]>=0) {
432 font->unicode2glyph[t] = glyph2glyph[font->unicode2glyph[t]];
435 rfx_free(glyph2glyph);
436 rfx_free(glyph2unicode);
439 FT_Done_FreeType(ftlibrary);ftlibrary=0;
441 if(!isunicode && font->num_glyphs>0 && font->max_unicode) {
442 /* if the encoding isn't unicode, remap the font
443 so that the encoding equals the char position, and
444 remove the unicode table */
446 gfxglyph_t*newglyphs = (gfxglyph_t*)rfx_calloc(font->max_unicode*sizeof(gfxglyph_t));
448 for(t=0;t<max_unicode;t++) {
449 int c = font->unicode2glyph[t];
450 if(c>=font->num_glyphs || c<0)
452 newglyphs[t] = cloneGlyph(&font->glyphs[c]);
453 newglyphs[t].unicode = -1;
455 for(t=0;t<font->num_glyphs;t++) {
456 glyph_clear(&font->glyphs[t]);
459 font->glyphs = newglyphs;
460 font->num_glyphs = font->max_unicode;
462 free(font->unicode2glyph);font->unicode2glyph = 0;
463 font->max_unicode = 0;
466 if(font->unicode2glyph) {
469 /* check whether the Unicode indices look o.k.
470 If they don't, disable the unicode lookup by setting
471 the unicode map to -1 everywhere */
472 for(t=0;t<font->num_glyphs;t++) {
473 int c = font->glyphs[t].unicode;
474 gfxline_t* line = font->glyphs[t].line;
475 if(c && c < 32 && (line && line->next && line->next->next)) {
476 // the character maps into the unicode control character range
477 // between 0001-001f. Yet it is not empty. Treat the one
478 // mapping as broken, and look how many of those we find.
483 free(font->unicode2glyph);font->unicode2glyph = 0;
484 font->max_unicode = 0;
485 for(t=0;t<font->num_glyphs;t++) {
486 font->glyphs[t].unicode = -1;
495 gfxfont_t* gfxfont_load(char*id, char*filename, unsigned int flags, double quality)
497 fprintf(stderr, "No freetype support compiled in! Not able to load %s\n", filename);
503 void gfxfont_free(gfxfont_t*font)
506 for(t=0;t<font->num_glyphs;t++) {
507 glyph_clear(&font->glyphs[t]);
510 free(font->glyphs);font->glyphs = 0;
512 font->num_glyphs = 0;
513 if(font->unicode2glyph) {
514 free(font->unicode2glyph);font->unicode2glyph = 0;
517 free((void*)font->id);font->id=0;
520 free(font->kerning);font->kerning=0;
526 static inline int invalid_unicode(int u)
528 return (u<32 || (u>=0xe000 && u<0xf900));
530 void gfxfont_fix_unicode(gfxfont_t*font)
534 /* find the current maximum unicode2glyph */
536 for(t=0;t<font->num_glyphs;t++) {
537 int u = font->glyphs[t].unicode;
541 char*used = rfx_calloc(max+1);
543 /* now, remap all duplicates (and invalid characters) and
544 calculate the new maximum */
547 for(t=0;t<font->num_glyphs;t++) {
548 int u = font->glyphs[t].unicode;
550 if(used[u] || invalid_unicode(u)) {
551 u = font->glyphs[t].unicode = 0xe000 + remap_pos++;
561 if(!font->unicode2glyph) {
562 /* (re)generate unicode2glyph-to-glyph mapping table by reverse mapping
563 the glyph unicode2glyph's indexes into the mapping table. For collisions,
564 we prefer the smaller unicode2glyph value.*/
565 font->max_unicode = max+1;
566 font->unicode2glyph = malloc(sizeof(font->unicode2glyph[0])*(font->max_unicode));
567 memset(font->unicode2glyph, -1, sizeof(font->unicode2glyph[0])*(font->max_unicode));
569 for(t=0;t<font->num_glyphs;t++) {
570 int u = font->glyphs[t].unicode;
572 assert(font->unicode2glyph[u]<0); // we took care of duplicates, right?
573 font->unicode2glyph[u] = t;
577 /* add the new glyph indexes (most probably, that's only the remapped values
578 at 0xe000) to the unicode2glyph table. Notice: Unlike glyph2unicode, we don't
579 care about collisions in the unicode2glyph table */
580 int new_max_unicode = max+1;
581 if(font->max_unicode < new_max_unicode) {
582 font->unicode2glyph = rfx_realloc(font->unicode2glyph, sizeof(font->unicode2glyph[0])*(font->max_unicode));
583 memset(font->unicode2glyph+font->max_unicode, -1, sizeof(font->unicode2glyph[0])*(new_max_unicode - font->max_unicode));
585 for(t=0;t<font->num_glyphs;t++) {
586 int u = font->glyphs[t].unicode;
587 if(u>=0 && font->unicode2glyph[u]<0) {
588 font->unicode2glyph[u] = t;
591 font->max_unicode = new_max_unicode;
595 ttf_t* gfxfont_to_ttf(gfxfont_t*font)
597 ttf_t*ttf = ttf_new();
598 int num_glyphs = font->num_glyphs;
601 char has_nondef_glyph =
602 font->num_glyphs && font->glyphs[0].unicode==-1 &&
603 (!font->glyphs[0].line || !font->glyphs[0].line->next);
605 if(!has_nondef_glyph) {
606 /* insert a new .nondef glyph at the start of the font */
610 ttf->num_glyphs = num_glyphs;
611 ttf->glyphs = rfx_calloc(num_glyphs*sizeof(ttfglyph_t));
613 int max_unicode = font->max_unicode;
615 for(t=0;t<font->num_glyphs;t++) {
616 gfxglyph_t*src = &font->glyphs[t];
617 ttfglyph_t*dest = &ttf->glyphs[t+offset];
618 gfxline_t*line = src->line;
622 if(line->type == gfx_splineTo)
626 dest->num_points = count;
627 dest->points = rfx_calloc(count*sizeof(ttfpoint_t));
631 if(line->type == gfx_splineTo) {
632 dest->points[count].x = line->sx*scale;
633 dest->points[count].y = line->sy*scale;
636 dest->points[count].x = line->x*scale;
637 dest->points[count].y = line->y*scale;
638 dest->points[count].flags |= GLYPH_ON_CURVE;
639 if(line->type == gfx_moveTo) {
640 dest->points[count].flags |= GLYPH_CONTOUR_START;
642 dest->points[count-1].flags |= GLYPH_CONTOUR_END;
648 dest->points[count-1].flags |= GLYPH_CONTOUR_END;
650 /* compute bounding box */
653 dest->xmin = dest->xmax = dest->points[0].x;
654 dest->ymin = dest->ymax = dest->points[0].y;
655 for(s=1;s<count;s++) {
656 if(dest->points[s].x < dest->xmin)
657 dest->xmin = dest->points[s].x;
658 if(dest->points[s].y < dest->ymin)
659 dest->ymin = dest->points[s].y;
660 if(dest->points[s].x > dest->xmax)
661 dest->xmax = dest->points[s].x;
662 if(dest->points[s].y > dest->ymax)
663 dest->ymax = dest->points[s].y;
667 dest->advance = src->advance*scale;
669 int u = font->glyphs[t].unicode;
673 ttf->unicode_size = max_unicode+1;
674 ttf->unicode = rfx_calloc(sizeof(unicode_t)*ttf->unicode_size);
676 if(!font->unicode2glyph) {
677 for(t=0;t<font->num_glyphs;t++) {
678 gfxglyph_t*src = &font->glyphs[t];
679 int u = font->glyphs[t].unicode;
683 msg("<warning> gfxfont_to_ttf: glyph %d has an invalid unicode (%d)", t, u);
685 } else if(ttf->unicode[u]) {
686 msg("<warning> gfxfont_to_ttf: glyph %d has a duplicate unicode (%d)", t, u);
689 if(u<ttf->unicode_size)
690 ttf->unicode[u] = t+offset;
694 for(u=1;u<ttf->unicode_size;u++) {
695 int g = font->unicode2glyph[u];
697 msg("<warning> gfxfont_to_ttf: Font contains an invalid unicode (%d)", u);
700 if(g>=0 && g<font->num_glyphs && !ttf->unicode[u]) {
701 ttf->unicode[u] = g+offset;
706 ttf->ascent = font->ascent;
707 ttf->descent = -font->descent;
710 ttf->full_name = strdup(font->id);
711 ttf->family_name = strdup(font->id);
712 ttf->subfamily_name = strdup(font->id);
713 ttf->postscript_name = strdup(font->id);
714 ttf->version_string = strdup("Version 1.0");
715 ttf->font_uid = strdup(font->id);
717 ttf_create_truetype_tables(ttf);
721 void gfxfont_save(gfxfont_t*font, const char*filename)
723 ttf_t*ttf = gfxfont_to_ttf(font);
724 ttf_save(ttf, filename);
728 void gfxfont_save_eot(gfxfont_t*font, const char*filename)
730 ttf_t*ttf = gfxfont_to_ttf(font);
731 ttf_save_eot(ttf, filename);