1
/*
2
 * Copyright © 2004 Keith Packard
3
 * Copyright © 2008 Red Hat, Inc.
4
 *
5
 * This library is free software; you can redistribute it and/or
6
 * modify it either under the terms of the GNU Lesser General Public
7
 * License version 2.1 as published by the Free Software Foundation
8
 * (the "LGPL") or, at your option, under the terms of the Mozilla
9
 * Public License Version 1.1 (the "MPL"). If you do not alter this
10
 * notice, a recipient may use your version of this file under either
11
 * the MPL or the LGPL.
12
 *
13
 * You should have received a copy of the LGPL along with this library
14
 * in the file COPYING-LGPL-2.1; if not, write to the Free Software
15
 * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335, USA
16
 * You should have received a copy of the MPL along with this library
17
 * in the file COPYING-MPL-1.1
18
 *
19
 * The contents of this file are subject to the Mozilla Public License
20
 * Version 1.1 (the "License"); you may not use this file except in
21
 * compliance with the License. You may obtain a copy of the License at
22
 * http://www.mozilla.org/MPL/
23
 *
24
 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY
25
 * OF ANY KIND, either express or implied. See the LGPL or the MPL for
26
 * the specific language governing rights and limitations.
27
 *
28
 * The Original Code is the cairo graphics library.
29
 *
30
 * The Initial Developer of the Original Code is Keith Packard
31
 *
32
 * Contributor(s):
33
 *      Keith Packard <keithp@keithp.com>
34
 *      Behdad Esfahbod <behdad@behdad.org>
35
 */
36

            
37
#include "cairoint.h"
38
#include "cairo-error-private.h"
39

            
40
#include <math.h>
41

            
42
/*
43
 * This file implements a user-font rendering the descendant of the Hershey
44
 * font coded by Keith Packard for use in the Twin window system.
45
 * The actual font data is in cairo-font-face-twin-data.c
46
 *
47
 * Ported to cairo user font and extended by Behdad Esfahbod.
48
 */
49

            
50

            
51

            
52
static cairo_user_data_key_t twin_properties_key;
53

            
54

            
55
/*
56
 * Face properties
57
 */
58

            
59
/* We synthesize multiple faces from the twin data.  Here is the parameters. */
60

            
61
/* The following tables and matching code are copied from Pango */
62

            
63
/* CSS weight */
64
typedef enum {
65
  TWIN_WEIGHT_THIN = 100,
66
  TWIN_WEIGHT_ULTRALIGHT = 200,
67
  TWIN_WEIGHT_LIGHT = 300,
68
  TWIN_WEIGHT_BOOK = 380,
69
  TWIN_WEIGHT_NORMAL = 400,
70
  TWIN_WEIGHT_MEDIUM = 500,
71
  TWIN_WEIGHT_SEMIBOLD = 600,
72
  TWIN_WEIGHT_BOLD = 700,
73
  TWIN_WEIGHT_ULTRABOLD = 800,
74
  TWIN_WEIGHT_HEAVY = 900,
75
  TWIN_WEIGHT_ULTRAHEAVY = 1000
76
} twin_face_weight_t;
77

            
78
/* CSS stretch */
79
typedef enum {
80
  TWIN_STRETCH_ULTRA_CONDENSED,
81
  TWIN_STRETCH_EXTRA_CONDENSED,
82
  TWIN_STRETCH_CONDENSED,
83
  TWIN_STRETCH_SEMI_CONDENSED,
84
  TWIN_STRETCH_NORMAL,
85
  TWIN_STRETCH_SEMI_EXPANDED,
86
  TWIN_STRETCH_EXPANDED,
87
  TWIN_STRETCH_EXTRA_EXPANDED,
88
  TWIN_STRETCH_ULTRA_EXPANDED
89
} twin_face_stretch_t;
90

            
91
typedef struct
92
{
93
  int value;
94
  const char str[16];
95
} FieldMap;
96

            
97
static const FieldMap slant_map[] = {
98
  { CAIRO_FONT_SLANT_NORMAL, "" },
99
  { CAIRO_FONT_SLANT_NORMAL, "Roman" },
100
  { CAIRO_FONT_SLANT_OBLIQUE, "Oblique" },
101
  { CAIRO_FONT_SLANT_ITALIC, "Italic" }
102
};
103

            
104
static const FieldMap smallcaps_map[] = {
105
  { FALSE, "" },
106
  { TRUE, "Small-Caps" }
107
};
108

            
109
static const FieldMap weight_map[] = {
110
  { TWIN_WEIGHT_THIN, "Thin" },
111
  { TWIN_WEIGHT_ULTRALIGHT, "Ultra-Light" },
112
  { TWIN_WEIGHT_ULTRALIGHT, "Extra-Light" },
113
  { TWIN_WEIGHT_LIGHT, "Light" },
114
  { TWIN_WEIGHT_BOOK, "Book" },
115
  { TWIN_WEIGHT_NORMAL, "" },
116
  { TWIN_WEIGHT_NORMAL, "Regular" },
117
  { TWIN_WEIGHT_MEDIUM, "Medium" },
118
  { TWIN_WEIGHT_SEMIBOLD, "Semi-Bold" },
119
  { TWIN_WEIGHT_SEMIBOLD, "Demi-Bold" },
120
  { TWIN_WEIGHT_BOLD, "Bold" },
121
  { TWIN_WEIGHT_ULTRABOLD, "Ultra-Bold" },
122
  { TWIN_WEIGHT_ULTRABOLD, "Extra-Bold" },
123
  { TWIN_WEIGHT_HEAVY, "Heavy" },
124
  { TWIN_WEIGHT_HEAVY, "Black" },
125
  { TWIN_WEIGHT_ULTRAHEAVY, "Ultra-Heavy" },
126
  { TWIN_WEIGHT_ULTRAHEAVY, "Extra-Heavy" },
127
  { TWIN_WEIGHT_ULTRAHEAVY, "Ultra-Black" },
128
  { TWIN_WEIGHT_ULTRAHEAVY, "Extra-Black" }
129
};
130

            
131
static const FieldMap stretch_map[] = {
132
  { TWIN_STRETCH_ULTRA_CONDENSED, "Ultra-Condensed" },
133
  { TWIN_STRETCH_EXTRA_CONDENSED, "Extra-Condensed" },
134
  { TWIN_STRETCH_CONDENSED,       "Condensed" },
135
  { TWIN_STRETCH_SEMI_CONDENSED,  "Semi-Condensed" },
136
  { TWIN_STRETCH_NORMAL,          "" },
137
  { TWIN_STRETCH_SEMI_EXPANDED,   "Semi-Expanded" },
138
  { TWIN_STRETCH_EXPANDED,        "Expanded" },
139
  { TWIN_STRETCH_EXTRA_EXPANDED,  "Extra-Expanded" },
140
  { TWIN_STRETCH_ULTRA_EXPANDED,  "Ultra-Expanded" }
141
};
142

            
143
static const FieldMap monospace_map[] = {
144
  { FALSE, "" },
145
  { TRUE, "Mono" },
146
  { TRUE, "Monospace" }
147
};
148

            
149

            
150
typedef struct _twin_face_properties {
151
    cairo_font_slant_t  slant;
152
    twin_face_weight_t  weight;
153
    twin_face_stretch_t stretch;
154

            
155
    /* lets have some fun */
156
    cairo_bool_t monospace;
157
    cairo_bool_t smallcaps;
158
} twin_face_properties_t;
159

            
160
static cairo_bool_t
161
891
field_matches (const char *s1,
162
               const char *s2,
163
               int len)
164
{
165
  int c1, c2;
166

            
167
891
  while (len && *s1 && *s2)
168
    {
169
#define TOLOWER(c) \
170
   (((c) >= 'A' && (c) <= 'Z') ? (c) - 'A' + 'a' : (c))
171

            
172
891
      c1 = TOLOWER (*s1);
173
891
      c2 = TOLOWER (*s2);
174
891
      if (c1 != c2) {
175
891
        if (c1 == '-') {
176
          s1++;
177
          continue;
178
        }
179
891
        return FALSE;
180
      }
181
      s1++; s2++;
182
      len--;
183
    }
184

            
185
  return len == 0 && *s1 == '\0';
186
}
187

            
188
static cairo_bool_t
189
parse_int (const char *word,
190
	   size_t      wordlen,
191
	   int        *out)
192
{
193
  char *end;
194
  long val = strtol (word, &end, 10);
195
  int i = val;
196

            
197
  if (end != word && (end == word + wordlen) && val >= 0 && val == i)
198
    {
199
      if (out)
200
        *out = i;
201

            
202
      return TRUE;
203
    }
204

            
205
  return FALSE;
206
}
207

            
208
static cairo_bool_t
209
135
find_field (const char *what,
210
	    const FieldMap *map,
211
	    int n_elements,
212
	    const char *str,
213
	    int len,
214
	    int *val)
215
{
216
  int i;
217
135
  cairo_bool_t had_prefix = FALSE;
218

            
219
135
  if (what)
220
    {
221
135
      i = strlen (what);
222
135
      if (len > i && 0 == strncmp (what, str, i) && str[i] == '=')
223
	{
224
	  str += i + 1;
225
	  len -= i + 1;
226
	  had_prefix = TRUE;
227
	}
228
    }
229

            
230
1134
  for (i=0; i<n_elements; i++)
231
    {
232
999
      if (map[i].str[0] && field_matches (map[i].str, str, len))
233
	{
234
	  if (val)
235
	    *val = map[i].value;
236
	  return TRUE;
237
	}
238
    }
239

            
240
135
  if (!what || had_prefix)
241
    return parse_int (str, len, val);
242

            
243
135
  return FALSE;
244
}
245

            
246
static void
247
27
parse_field (twin_face_properties_t *props,
248
	     const char *str,
249
	     int len)
250
{
251
27
  if (field_matches ("Normal", str, len))
252
    return;
253

            
254
#define FIELD(NAME) \
255
  if (find_field (STRINGIFY (NAME), NAME##_map, ARRAY_LENGTH (NAME##_map), str, len, \
256
		  (int *)(void *)&props->NAME)) \
257
      return; \
258

            
259
27
  FIELD (weight);
260
27
  FIELD (slant);
261
27
  FIELD (stretch);
262
27
  FIELD (smallcaps);
263
27
  FIELD (monospace);
264

            
265
#undef FIELD
266
}
267

            
268
static void
269
27
face_props_parse (twin_face_properties_t *props,
270
	     const char *s)
271
{
272
    const char *start, *end;
273

            
274
216
    for (start = end = s; *end; end++) {
275
189
	if (*end != ' ' && *end != ':')
276
162
	    continue;
277

            
278
27
	if (start < end)
279
27
		parse_field (props, start, end - start);
280
27
	start = end + 1;
281
    }
282
27
    if (start < end)
283
	    parse_field (props, start, end - start);
284
27
}
285

            
286
static twin_face_properties_t *
287
27
twin_font_face_create_properties (cairo_font_face_t *twin_face)
288
{
289
    twin_face_properties_t *props;
290

            
291
27
    props = _cairo_calloc (sizeof (twin_face_properties_t));
292
27
    if (unlikely (props == NULL))
293
	return NULL;
294

            
295
27
    props->stretch  = TWIN_STRETCH_NORMAL;
296
27
    props->slant = CAIRO_FONT_SLANT_NORMAL;
297
27
    props->weight = TWIN_WEIGHT_NORMAL;
298
27
    props->monospace = FALSE;
299
27
    props->smallcaps = FALSE;
300

            
301
27
    if (unlikely (cairo_font_face_set_user_data (twin_face,
302
					    &twin_properties_key,
303
					    props, free))) {
304
	free (props);
305
	return NULL;
306
    }
307

            
308
27
    return props;
309
}
310

            
311
static cairo_status_t
312
27
twin_font_face_set_properties_from_toy (cairo_font_face_t *twin_face,
313
					cairo_toy_font_face_t *toy_face)
314
{
315
    twin_face_properties_t *props;
316

            
317
27
    props = twin_font_face_create_properties (twin_face);
318
27
    if (unlikely (props == NULL))
319
	return _cairo_error (CAIRO_STATUS_NO_MEMORY);
320

            
321
27
    props->slant = toy_face->slant;
322
54
    props->weight = toy_face->weight == CAIRO_FONT_WEIGHT_NORMAL ?
323
27
		    TWIN_WEIGHT_NORMAL : TWIN_WEIGHT_BOLD;
324
27
    face_props_parse (props, toy_face->family);
325

            
326
27
    return CAIRO_STATUS_SUCCESS;
327
}
328

            
329

            
330
/*
331
 * Scaled properties
332
 */
333

            
334
typedef struct _twin_scaled_properties {
335
	twin_face_properties_t *face_props;
336

            
337
	cairo_bool_t snap; /* hint outlines */
338

            
339
	double weight; /* unhinted pen width */
340
	double penx, peny; /* hinted pen width */
341
	double marginl, marginr; /* hinted side margins */
342

            
343
	double stretch; /* stretch factor */
344
} twin_scaled_properties_t;
345

            
346
static void
347
compute_hinting_scale (cairo_t *cr,
348
		       double x, double y,
349
		       double *scale, double *inv)
350
{
351
    cairo_user_to_device_distance (cr, &x, &y);
352
    *scale = x == 0 ? y : y == 0 ? x :sqrt (x*x + y*y);
353
    *inv = 1 / *scale;
354
}
355

            
356
static void
357
compute_hinting_scales (cairo_t *cr,
358
			double *x_scale, double *x_scale_inv,
359
			double *y_scale, double *y_scale_inv)
360
{
361
    double x, y;
362

            
363
    x = 1; y = 0;
364
    compute_hinting_scale (cr, x, y, x_scale, x_scale_inv);
365

            
366
    x = 0; y = 1;
367
    compute_hinting_scale (cr, x, y, y_scale, y_scale_inv);
368
}
369

            
370
#define SNAPXI(p)	(_cairo_round ((p) * x_scale) * x_scale_inv)
371
#define SNAPYI(p)	(_cairo_round ((p) * y_scale) * y_scale_inv)
372

            
373
/* This controls the global font size */
374
#define F(g)		((g) / 72.)
375

            
376
static void
377
twin_hint_pen_and_margins(cairo_t *cr,
378
			  double *penx, double *peny,
379
			  double *marginl, double *marginr)
380
{
381
    double x_scale, x_scale_inv;
382
    double y_scale, y_scale_inv;
383
    double margin;
384

            
385
    compute_hinting_scales (cr,
386
			    &x_scale, &x_scale_inv,
387
			    &y_scale, &y_scale_inv);
388

            
389
    *penx = SNAPXI (*penx);
390
    if (*penx < x_scale_inv)
391
	*penx = x_scale_inv;
392

            
393
    *peny = SNAPYI (*peny);
394
    if (*peny < y_scale_inv)
395
	*peny = y_scale_inv;
396

            
397
    margin = *marginl + *marginr;
398
    *marginl = SNAPXI (*marginl);
399
    if (*marginl < x_scale_inv)
400
	*marginl = x_scale_inv;
401

            
402
    *marginr = margin - *marginl;
403
    if (*marginr < 0)
404
	*marginr = 0;
405
    *marginr = SNAPXI (*marginr);
406
}
407

            
408
static cairo_status_t
409
57
twin_scaled_font_compute_properties (cairo_scaled_font_t *scaled_font,
410
				     cairo_t           *cr)
411
{
412
    cairo_status_t status;
413
    twin_scaled_properties_t *props;
414

            
415
57
    props = _cairo_calloc (sizeof (twin_scaled_properties_t));
416
57
    if (unlikely (props == NULL))
417
	return _cairo_error (CAIRO_STATUS_NO_MEMORY);
418

            
419

            
420
57
    props->face_props = cairo_font_face_get_user_data (cairo_scaled_font_get_font_face (scaled_font),
421
						       &twin_properties_key);
422

            
423
57
    props->snap = scaled_font->options.hint_style > CAIRO_HINT_STYLE_NONE;
424

            
425
    /* weight */
426
57
    props->weight = props->face_props->weight * (F (4) / TWIN_WEIGHT_NORMAL);
427

            
428
    /* pen & margins */
429
57
    props->penx = props->peny = props->weight;
430
57
    props->marginl = props->marginr = F (4);
431
57
    if (scaled_font->options.hint_style > CAIRO_HINT_STYLE_SLIGHT)
432
	twin_hint_pen_and_margins(cr,
433
				  &props->penx, &props->peny,
434
				  &props->marginl, &props->marginr);
435

            
436
    /* stretch */
437
57
    props->stretch = 1 + .1 * ((int) props->face_props->stretch - (int) TWIN_STRETCH_NORMAL);
438

            
439

            
440
    /* Save it */
441
57
    status = cairo_scaled_font_set_user_data (scaled_font,
442
					      &twin_properties_key,
443
					      props, free);
444
57
    if (unlikely (status))
445
	goto FREE_PROPS;
446

            
447
57
    return CAIRO_STATUS_SUCCESS;
448

            
449
FREE_PROPS:
450
    free (props);
451
    return status;
452
}
453

            
454

            
455
/*
456
 * User-font implementation
457
 */
458

            
459
static cairo_status_t
460
57
twin_scaled_font_init (cairo_scaled_font_t  *scaled_font,
461
		       cairo_t              *cr,
462
		       cairo_font_extents_t *metrics)
463
{
464
57
  metrics->ascent  = F (54);
465
57
  metrics->descent = 1 - metrics->ascent;
466

            
467
57
  return twin_scaled_font_compute_properties (scaled_font, cr);
468
}
469

            
470
#define TWIN_GLYPH_MAX_SNAP_X 4
471
#define TWIN_GLYPH_MAX_SNAP_Y 7
472

            
473
typedef struct {
474
    int n_snap_x;
475
    int8_t snap_x[TWIN_GLYPH_MAX_SNAP_X];
476
    double snapped_x[TWIN_GLYPH_MAX_SNAP_X];
477
    int n_snap_y;
478
    int8_t snap_y[TWIN_GLYPH_MAX_SNAP_Y];
479
    double snapped_y[TWIN_GLYPH_MAX_SNAP_Y];
480
} twin_snap_info_t;
481

            
482
#define twin_glyph_left(g)      ((g)[0])
483
#define twin_glyph_right(g)     ((g)[1])
484
#define twin_glyph_ascent(g)    ((g)[2])
485
#define twin_glyph_descent(g)   ((g)[3])
486

            
487
#define twin_glyph_n_snap_x(g)  ((g)[4])
488
#define twin_glyph_n_snap_y(g)  ((g)[5])
489
#define twin_glyph_snap_x(g)    (&g[6])
490
#define twin_glyph_snap_y(g)    (twin_glyph_snap_x(g) + twin_glyph_n_snap_x(g))
491
#define twin_glyph_draw(g)      (twin_glyph_snap_y(g) + twin_glyph_n_snap_y(g))
492

            
493
static void
494
twin_compute_snap (cairo_t             *cr,
495
		   twin_snap_info_t    *info,
496
		   const signed char   *b)
497
{
498
    int			s, n;
499
    const signed char	*snap;
500
    double x_scale, x_scale_inv;
501
    double y_scale, y_scale_inv;
502

            
503
    compute_hinting_scales (cr,
504
			    &x_scale, &x_scale_inv,
505
			    &y_scale, &y_scale_inv);
506

            
507
    snap = twin_glyph_snap_x (b);
508
    n = twin_glyph_n_snap_x (b);
509
    info->n_snap_x = n;
510
    assert (n <= TWIN_GLYPH_MAX_SNAP_X);
511
    for (s = 0; s < n; s++) {
512
	info->snap_x[s] = snap[s];
513
	info->snapped_x[s] = SNAPXI (F (snap[s]));
514
    }
515

            
516
    snap = twin_glyph_snap_y (b);
517
    n = twin_glyph_n_snap_y (b);
518
    info->n_snap_y = n;
519
    assert (n <= TWIN_GLYPH_MAX_SNAP_Y);
520
    for (s = 0; s < n; s++) {
521
	info->snap_y[s] = snap[s];
522
	info->snapped_y[s] = SNAPYI (F (snap[s]));
523
    }
524
}
525

            
526
static double
527
8598
twin_snap (int8_t v, int n, int8_t *snap, double *snapped)
528
{
529
    int	s;
530

            
531
8598
    if (!n)
532
8598
	return F(v);
533

            
534
    if (snap[0] == v)
535
	return snapped[0];
536

            
537
    for (s = 0; s < n - 1; s++)
538
    {
539
	if (snap[s+1] == v)
540
	    return snapped[s+1];
541

            
542
	if (snap[s] <= v && v <= snap[s+1])
543
	{
544
	    int before = snap[s];
545
	    int after = snap[s+1];
546
	    int dist = after - before;
547
	    double snap_before = snapped[s];
548
	    double snap_after = snapped[s+1];
549
	    double dist_before = v - before;
550
	    return snap_before + (snap_after - snap_before) * dist_before / dist;
551
	}
552
    }
553
    return F(v);
554
}
555

            
556
#define SNAPX(p)	twin_snap (p, info.n_snap_x, info.snap_x, info.snapped_x)
557
#define SNAPY(p)	twin_snap (p, info.n_snap_y, info.snap_y, info.snapped_y)
558

            
559
static cairo_status_t
560
477
twin_scaled_font_render_glyph (cairo_scaled_font_t  *scaled_font,
561
			       unsigned long         glyph,
562
			       cairo_t              *cr,
563
			       cairo_text_extents_t *metrics)
564
{
565
    double x1, y1, x2, y2, x3, y3;
566
    double marginl;
567
    twin_scaled_properties_t *props;
568
    twin_snap_info_t info;
569
    const int8_t *b;
570
    const int8_t *g;
571
    int8_t w;
572
    double gw;
573

            
574
477
    props = cairo_scaled_font_get_user_data (scaled_font, &twin_properties_key);
575

            
576
    /* Save glyph space, we need it when stroking */
577
477
    cairo_save (cr);
578

            
579
    /* center the pen */
580
477
    cairo_translate (cr, props->penx * .5, -props->peny * .5);
581

            
582
    /* small-caps */
583
477
    if (props->face_props->smallcaps && glyph >= 'a' && glyph <= 'z') {
584
	glyph += 'A' - 'a';
585
	/* 28 and 42 are small and capital letter heights of the glyph data */
586
	cairo_scale (cr, 1, 28. / 42);
587
    }
588

            
589
    /* slant */
590
477
    if (props->face_props->slant != CAIRO_FONT_SLANT_NORMAL) {
591
	cairo_matrix_t shear = { 1, 0, -.2, 1, 0, 0};
592
	cairo_transform (cr, &shear);
593
    }
594

            
595
477
    b = _cairo_twin_outlines +
596
477
	_cairo_twin_charmap[unlikely (glyph >= ARRAY_LENGTH (_cairo_twin_charmap)) ? 0 : glyph];
597
477
    g = twin_glyph_draw(b);
598
477
    w = twin_glyph_right(b);
599
477
    gw = F(w);
600

            
601
477
    marginl = props->marginl;
602

            
603
    /* monospace */
604
477
    if (props->face_props->monospace) {
605
	double monow = F(24);
606
	double extra =  props->penx + props->marginl + props->marginr;
607
	cairo_scale (cr, (monow + extra) / (gw + extra), 1);
608
	gw = monow;
609

            
610
	/* resnap margin for new transform */
611
	{
612
	    double x, y, x_scale, x_scale_inv;
613
	    x = 1; y = 0;
614
	    compute_hinting_scale (cr, x, y, &x_scale, &x_scale_inv);
615
	    marginl = SNAPXI (marginl);
616
	}
617
    }
618

            
619
477
    cairo_translate (cr, marginl, 0);
620

            
621
    /* stretch */
622
477
    cairo_scale (cr, props->stretch, 1);
623

            
624
477
    if (props->snap)
625
	twin_compute_snap (cr, &info, b);
626
    else
627
477
	info.n_snap_x = info.n_snap_y = 0;
628

            
629
    /* advance width */
630
477
    metrics->x_advance = gw * props->stretch + props->penx + props->marginl + props->marginr;
631

            
632
    /* glyph shape */
633
    for (;;) {
634
2712
	switch (*g++) {
635
	case 'M':
636
	    cairo_close_path (cr);
637
	    /* fall through */
638
669
	case 'm':
639
669
	    x1 = SNAPX(*g++);
640
669
	    y1 = SNAPY(*g++);
641
669
	    cairo_move_to (cr, x1, y1);
642
669
	    continue;
643
	case 'L':
644
	    cairo_close_path (cr);
645
	    /* fall through */
646
534
	case 'l':
647
534
	    x1 = SNAPX(*g++);
648
534
	    y1 = SNAPY(*g++);
649
534
	    cairo_line_to (cr, x1, y1);
650
534
	    continue;
651
	case 'C':
652
	    cairo_close_path (cr);
653
	    /* fall through */
654
1032
	case 'c':
655
1032
	    x1 = SNAPX(*g++);
656
1032
	    y1 = SNAPY(*g++);
657
1032
	    x2 = SNAPX(*g++);
658
1032
	    y2 = SNAPY(*g++);
659
1032
	    x3 = SNAPX(*g++);
660
1032
	    y3 = SNAPY(*g++);
661
1032
	    cairo_curve_to (cr, x1, y1, x2, y2, x3, y3);
662
1032
	    continue;
663
42
	case 'E':
664
42
	    cairo_close_path (cr);
665
	    /* fall through */
666
477
	case 'e':
667
477
	    cairo_restore (cr); /* restore glyph space */
668
477
	    cairo_set_tolerance (cr, 0.01);
669
477
	    cairo_set_line_join (cr, CAIRO_LINE_JOIN_ROUND);
670
477
	    cairo_set_line_cap (cr, CAIRO_LINE_CAP_ROUND);
671
477
	    cairo_set_line_width (cr, 1);
672
477
	    cairo_scale (cr, props->penx, props->peny);
673
477
	    cairo_stroke (cr);
674
477
	    break;
675
	case 'X':
676
	    /* filler */
677
	    continue;
678
	}
679
477
	break;
680
    }
681

            
682
477
    return CAIRO_STATUS_SUCCESS;
683
}
684

            
685
static cairo_status_t
686
1005
twin_scaled_font_unicode_to_glyph (cairo_scaled_font_t *scaled_font,
687
				   unsigned long        unicode,
688
				   unsigned long       *glyph)
689
{
690
    /* We use an identity charmap.  Which means we could live
691
     * with no unicode_to_glyph method too.  But we define this
692
     * to map all unknown chars to a single unknown glyph to
693
     * reduce pressure on cache. */
694

            
695
1005
    if (likely (unicode < ARRAY_LENGTH (_cairo_twin_charmap)))
696
1005
	*glyph = unicode;
697
    else
698
	*glyph = 0;
699

            
700
1005
    return CAIRO_STATUS_SUCCESS;
701
}
702

            
703

            
704
/*
705
 * Face constructor
706
 */
707

            
708
static cairo_font_face_t *
709
27
_cairo_font_face_twin_create_internal (void)
710
{
711
    cairo_font_face_t *twin_font_face;
712

            
713
27
    twin_font_face = cairo_user_font_face_create ();
714
27
    cairo_user_font_face_set_init_func             (twin_font_face, twin_scaled_font_init);
715
27
    cairo_user_font_face_set_render_glyph_func     (twin_font_face, twin_scaled_font_render_glyph);
716
27
    cairo_user_font_face_set_unicode_to_glyph_func (twin_font_face, twin_scaled_font_unicode_to_glyph);
717

            
718
27
    return twin_font_face;
719
}
720

            
721
cairo_font_face_t *
722
_cairo_font_face_twin_create_fallback (void)
723
{
724
    cairo_font_face_t *twin_font_face;
725

            
726
    twin_font_face = _cairo_font_face_twin_create_internal ();
727
    if (! twin_font_face_create_properties (twin_font_face)) {
728
	cairo_font_face_destroy (twin_font_face);
729
	return (cairo_font_face_t *) &_cairo_font_face_nil;
730
    }
731

            
732
    return twin_font_face;
733
}
734

            
735
cairo_status_t
736
27
_cairo_font_face_twin_create_for_toy (cairo_toy_font_face_t   *toy_face,
737
				      cairo_font_face_t      **font_face)
738
{
739
    cairo_status_t status;
740
    cairo_font_face_t *twin_font_face;
741

            
742
27
    twin_font_face = _cairo_font_face_twin_create_internal ();
743
27
    status = twin_font_face_set_properties_from_toy (twin_font_face, toy_face);
744
27
    if (status) {
745
	cairo_font_face_destroy (twin_font_face);
746
	return status;
747
    }
748

            
749
27
    *font_face = twin_font_face;
750

            
751
27
    return CAIRO_STATUS_SUCCESS;
752
}