pshrec.c source code [engine/third_party/freetype2/src/pshinter/pshrec.c]

1	/*************************************************************************/
2	/ /
3	/ pshrec.c /
4	/ /
5	/ FreeType PostScript hints recorder (body). /
6	/ /
7	/ Copyright 2001-2018 by /
8	/ David Turner, Robert Wilhelm, and Werner Lemberg. /
9	/ /
10	/ This file is part of the FreeType project, and may only be used, /
11	/ modified, and distributed under the terms of the FreeType project /
12	/ license, LICENSE.TXT. By continuing to use, modify, or distribute /
13	/ this file you indicate that you have read the license and /
14	/ understand and accept it fully. /
15	/ /
16	/*************************************************************************/
17
18
19	#include <ft2build.h>
20	#include FT_FREETYPE_H
21	#include FT_INTERNAL_OBJECTS_H
22	#include FT_INTERNAL_DEBUG_H
23	#include FT_INTERNAL_CALC_H
24
25	#include "pshrec.h"
26	#include "pshalgo.h"
27
28	#include "pshnterr.h"
29
30	#undef FT_COMPONENT
31	#define FT_COMPONENT trace_pshrec
32
33	#ifdef DEBUG_HINTER
34	PS_Hints ps_debug_hints = NULL;
35	int ps_debug_no_horz_hints = `0`;
36	int ps_debug_no_vert_hints = `0`;
37	#endif
38
39
40	/***********************************************************************/
41	/***********************************************************************/
42	/** **/
43	/** PS_HINT MANAGEMENT **/
44	/** **/
45	/***********************************************************************/
46	/***********************************************************************/
47
48	/ destroy hints table /
49	static void
50	ps_hint_table_done( PS_Hint_Table table,
51	FT_Memory memory )
52	{
53	FT_FREE( table->hints );
54	table->num_hints = `0`;
55	table->max_hints = `0`;
56	}
57
58
59	/ ensure that a table can contain "count" elements /
60	static FT_Error
61	ps_hint_table_ensure( PS_Hint_Table table,
62	FT_UInt count,
63	FT_Memory memory )
64	{
65	FT_UInt old_max = table->max_hints;
66	FT_UInt new_max = count;
67	FT_Error error = FT_Err_Ok;
68
69
70	if ( new_max > old_max )
71	{
72	/ try to grow the table /
73	new_max = FT_PAD_CEIL( new_max, `8` );
74	if ( !FT_RENEW_ARRAY( table->hints, old_max, new_max ) )
75	table->max_hints = new_max;
76	}
77	return error;
78	}
79
80
81	static FT_Error
82	ps_hint_table_alloc( PS_Hint_Table table,
83	FT_Memory memory,
84	PS_Hint *ahint )
85	{
86	FT_Error error = FT_Err_Ok;
87	FT_UInt count;
88	PS_Hint hint = NULL;
89
90
91	count = table->num_hints;
92	count++;
93
94	if ( count >= table->max_hints )
95	{
96	error = ps_hint_table_ensure( table, count, memory );
97	if ( error )
98	goto Exit;
99	}
100
101	hint = table->hints + count - `1`;
102	hint->pos = `0`;
103	hint->len = `0`;
104	hint->flags = `0`;
105
106	table->num_hints = count;
107
108	Exit:
109	*ahint = hint;
110	return error;
111	}
112
113
114	/***********************************************************************/
115	/***********************************************************************/
116	/** **/
117	/** PS_MASK MANAGEMENT **/
118	/** **/
119	/***********************************************************************/
120	/***********************************************************************/
121
122	/ destroy mask /
123	static void
124	ps_mask_done( PS_Mask mask,
125	FT_Memory memory )
126	{
127	FT_FREE( mask->bytes );
128	mask->num_bits = `0`;
129	mask->max_bits = `0`;
130	mask->end_point = `0`;
131	}
132
133
134	/ ensure that a mask can contain "count" bits /
135	static FT_Error
136	ps_mask_ensure( PS_Mask mask,
137	FT_UInt count,
138	FT_Memory memory )
139	{
140	FT_UInt old_max = ( mask->max_bits + `7` ) >> `3`;
141	FT_UInt new_max = ( count + `7` ) >> `3`;
142	FT_Error error = FT_Err_Ok;
143
144
145	if ( new_max > old_max )
146	{
147	new_max = FT_PAD_CEIL( new_max, `8` );
148	if ( !FT_RENEW_ARRAY( mask->bytes, old_max, new_max ) )
149	mask->max_bits = new_max * `8`;
150	}
151	return error;
152	}
153
154
155	/ test a bit value in a given mask /
156	static FT_Int
157	ps_mask_test_bit( PS_Mask mask,
158	FT_Int idx )
159	{
160	if ( (FT_UInt)idx >= mask->num_bits )
161	return `0`;
162
163	return mask->bytes[idx >> `3`] & ( `0x80` >> ( idx & `7` ) );
164	}
165
166
167	/ clear a given bit /
168	static void
169	ps_mask_clear_bit( PS_Mask mask,
170	FT_UInt idx )
171	{
172	FT_Byte* p;
173
174
175	if ( idx >= mask->num_bits )
176	return;
177
178	p = mask->bytes + ( idx >> `3` );
179	p[`0`] = (FT_Byte)( p[`0`] & ~( `0x80` >> ( idx & `7` ) ) );
180	}
181
182
183	/ set a given bit, possibly grow the mask /
184	static FT_Error
185	ps_mask_set_bit( PS_Mask mask,
186	FT_UInt idx,
187	FT_Memory memory )
188	{
189	FT_Error error = FT_Err_Ok;
190	FT_Byte* p;
191
192
193	if ( idx >= mask->num_bits )
194	{
195	error = ps_mask_ensure( mask, idx + `1`, memory );
196	if ( error )
197	goto Exit;
198
199	mask->num_bits = idx + `1`;
200	}
201
202	p = mask->bytes + ( idx >> `3` );
203	p[`0`] = (FT_Byte)( p[`0`] \| ( `0x80` >> ( idx & `7` ) ) );
204
205	Exit:
206	return error;
207	}
208
209
210	/ destroy mask table /
211	static void
212	ps_mask_table_done( PS_Mask_Table table,
213	FT_Memory memory )
214	{
215	FT_UInt count = table->max_masks;
216	PS_Mask mask = table->masks;
217
218
219	for ( ; count > `0`; count--, mask++ )
220	ps_mask_done( mask, memory );
221
222	FT_FREE( table->masks );
223	table->num_masks = `0`;
224	table->max_masks = `0`;
225	}
226
227
228	/ ensure that a mask table can contain "count" masks /
229	static FT_Error
230	ps_mask_table_ensure( PS_Mask_Table table,
231	FT_UInt count,
232	FT_Memory memory )
233	{
234	FT_UInt old_max = table->max_masks;
235	FT_UInt new_max = count;
236	FT_Error error = FT_Err_Ok;
237
238
239	if ( new_max > old_max )
240	{
241	new_max = FT_PAD_CEIL( new_max, `8` );
242	if ( !FT_RENEW_ARRAY( table->masks, old_max, new_max ) )
243	table->max_masks = new_max;
244	}
245	return error;
246	}
247
248
249	/ allocate a new mask in a table /
250	static FT_Error
251	ps_mask_table_alloc( PS_Mask_Table table,
252	FT_Memory memory,
253	PS_Mask *amask )
254	{
255	FT_UInt count;
256	FT_Error error = FT_Err_Ok;
257	PS_Mask mask = NULL;
258
259
260	count = table->num_masks;
261	count++;
262
263	if ( count > table->max_masks )
264	{
265	error = ps_mask_table_ensure( table, count, memory );
266	if ( error )
267	goto Exit;
268	}
269
270	mask = table->masks + count - `1`;
271	mask->num_bits = `0`;
272	mask->end_point = `0`;
273	table->num_masks = count;
274
275	Exit:
276	*amask = mask;
277	return error;
278	}
279
280
281	/ return last hint mask in a table, create one if the table is empty /
282	static FT_Error
283	ps_mask_table_last( PS_Mask_Table table,
284	FT_Memory memory,
285	PS_Mask *amask )
286	{
287	FT_Error error = FT_Err_Ok;
288	FT_UInt count;
289	PS_Mask mask;
290
291
292	count = table->num_masks;
293	if ( count == `0` )
294	{
295	error = ps_mask_table_alloc( table, memory, &mask );
296	if ( error )
297	goto Exit;
298	}
299	else
300	mask = table->masks + count - `1`;
301
302	Exit:
303	*amask = mask;
304	return error;
305	}
306
307
308	/ set a new mask to a given bit range /
309	static FT_Error
310	ps_mask_table_set_bits( PS_Mask_Table table,
311	const FT_Byte* source,
312	FT_UInt bit_pos,
313	FT_UInt bit_count,
314	FT_Memory memory )
315	{
316	FT_Error error;
317	PS_Mask mask;
318
319
320	error = ps_mask_table_last( table, memory, &mask );
321	if ( error )
322	goto Exit;
323
324	error = ps_mask_ensure( mask, bit_count, memory );
325	if ( error )
326	goto Exit;
327
328	mask->num_bits = bit_count;
329
330	/ now, copy bits /
331	{
332	FT_Byte* read = (FT_Byte*)source + ( bit_pos >> `3` );
333	FT_Int rmask = `0x80` >> ( bit_pos & `7` );
334	FT_Byte* write = mask->bytes;
335	FT_Int wmask = `0x80`;
336	FT_Int val;
337
338
339	for ( ; bit_count > `0`; bit_count-- )
340	{
341	val = write[`0`] & ~wmask;
342
343	if ( read[`0`] & rmask )
344	val \|= wmask;
345
346	write[`0`] = (FT_Byte)val;
347
348	rmask >>= `1`;
349	if ( rmask == `0` )
350	{
351	read++;
352	rmask = `0x80`;
353	}
354
355	wmask >>= `1`;
356	if ( wmask == `0` )
357	{
358	write++;
359	wmask = `0x80`;
360	}
361	}
362	}
363
364	Exit:
365	return error;
366	}
367
368
369	/ test whether two masks in a table intersect /
370	static FT_Int
371	ps_mask_table_test_intersect( PS_Mask_Table table,
372	FT_UInt index1,
373	FT_UInt index2 )
374	{
375	PS_Mask mask1 = table->masks + index1;
376	PS_Mask mask2 = table->masks + index2;
377	FT_Byte* p1 = mask1->bytes;
378	FT_Byte* p2 = mask2->bytes;
379	FT_UInt count1 = mask1->num_bits;
380	FT_UInt count2 = mask2->num_bits;
381	FT_UInt count;
382
383
384	count = FT_MIN( count1, count2 );
385	for ( ; count >= `8`; count -= `8` )
386	{
387	if ( p1[`0`] & p2[`0`] )
388	return `1`;
389
390	p1++;
391	p2++;
392	}
393
394	if ( count == `0` )
395	return `0`;
396
397	return ( p1[`0`] & p2[`0`] ) & ~( `0xFF` >> count );
398	}
399
400
401	/ merge two masks, used by ps_mask_table_merge_all /
402	static FT_Error
403	ps_mask_table_merge( PS_Mask_Table table,
404	FT_UInt index1,
405	FT_UInt index2,
406	FT_Memory memory )
407	{
408	FT_Error error = FT_Err_Ok;
409
410
411	/ swap index1 and index2 so that index1 < index2 /
412	if ( index1 > index2 )
413	{
414	FT_UInt temp;
415
416
417	temp = index1;
418	index1 = index2;
419	index2 = temp;
420	}
421
422	if ( index1 < index2 && index2 < table->num_masks )
423	{
424	/ we need to merge the bitsets of index1 and index2 with a /
425	/ simple union /
426	PS_Mask mask1 = table->masks + index1;
427	PS_Mask mask2 = table->masks + index2;
428	FT_UInt count1 = mask1->num_bits;
429	FT_UInt count2 = mask2->num_bits;
430	FT_Int delta;
431
432
433	if ( count2 > `0` )
434	{
435	FT_UInt pos;
436	FT_Byte* read;
437	FT_Byte* write;
438
439
440	/ if "count2" is greater than "count1", we need to grow the /
441	/ first bitset, and clear the highest bits /
442	if ( count2 > count1 )
443	{
444	error = ps_mask_ensure( mask1, count2, memory );
445	if ( error )
446	goto Exit;
447
448	for ( pos = count1; pos < count2; pos++ )
449	ps_mask_clear_bit( mask1, pos );
450	}
451
452	/ merge (unite) the bitsets /
453	read = mask2->bytes;
454	write = mask1->bytes;
455	pos = ( count2 + `7` ) >> `3`;
456
457	for ( ; pos > `0`; pos-- )
458	{
459	write[`0`] = (FT_Byte)( write[`0`] \| read[`0`] );
460	write++;
461	read++;
462	}
463	}
464
465	/ Now, remove "mask2" from the list. We need to keep the masks /
466	/ sorted in order of importance, so move table elements. /
467	mask2->num_bits = `0`;
468	mask2->end_point = `0`;
469
470	/ number of masks to move /
471	delta = (FT_Int)( table->num_masks - `1` - index2 );
472	if ( delta > `0` )
473	{
474	/ move to end of table for reuse /
475	PS_MaskRec dummy = *mask2;
476
477
478	ft_memmove( mask2,
479	mask2 + `1`,
480	(FT_UInt)delta * sizeof ( PS_MaskRec ) );
481
482	mask2[delta] = dummy;
483	}
484
485	table->num_masks--;
486	}
487	else
488	FT_TRACE0(( "ps_mask_table_merge: ignoring invalid indices (%d,%d)\n",
489	index1, index2 ));
490
491	Exit:
492	return error;
493	}
494
495
496	/ Try to merge all masks in a given table. This is used to merge /
497	/ all counter masks into independent counter "paths". /
498	/ /
499	static FT_Error
500	ps_mask_table_merge_all( PS_Mask_Table table,
501	FT_Memory memory )
502	{
503	FT_Int index1, index2;
504	FT_Error error = FT_Err_Ok;
505
506
507	/ both loops go down to 0, thus FT_Int for index1 and index2 /
508	for ( index1 = (FT_Int)table->num_masks - `1`; index1 > `0`; index1-- )
509	{
510	for ( index2 = index1 - `1`; index2 >= `0`; index2-- )
511	{
512	if ( ps_mask_table_test_intersect( table,
513	(FT_UInt)index1,
514	(FT_UInt)index2 ) )
515	{
516	error = ps_mask_table_merge( table,
517	(FT_UInt)index2,
518	(FT_UInt)index1,
519	memory );
520	if ( error )
521	goto Exit;
522
523	break;
524	}
525	}
526	}
527
528	Exit:
529	return error;
530	}
531
532
533	/***********************************************************************/
534	/***********************************************************************/
535	/** **/
536	/** PS_DIMENSION MANAGEMENT **/
537	/** **/
538	/***********************************************************************/
539	/***********************************************************************/
540
541
542	/ finalize a given dimension /
543	static void
544	ps_dimension_done( PS_Dimension dimension,
545	FT_Memory memory )
546	{
547	ps_mask_table_done( &dimension->counters, memory );
548	ps_mask_table_done( &dimension->masks, memory );
549	ps_hint_table_done( &dimension->hints, memory );
550	}
551
552
553	/ initialize a given dimension /
554	static void
555	ps_dimension_init( PS_Dimension dimension )
556	{
557	dimension->hints.num_hints = `0`;
558	dimension->masks.num_masks = `0`;
559	dimension->counters.num_masks = `0`;
560	}
561
562
563	#if 0
564
565	/ set a bit at a given index in the current hint mask /
566	static FT_Error
567	ps_dimension_set_mask_bit( PS_Dimension dim,
568	FT_UInt idx,
569	FT_Memory memory )
570	{
571	PS_Mask mask;
572	FT_Error error = FT_Err_Ok;
573
574
575	/ get last hint mask /
576	error = ps_mask_table_last( &dim->masks, memory, &mask );
577	if ( error )
578	goto Exit;
579
580	error = ps_mask_set_bit( mask, idx, memory );
581
582	Exit:
583	return error;
584	}
585
586	#endif
587
588	/ set the end point in a mask, called from "End" & "Reset" methods /
589	static void
590	ps_dimension_end_mask( PS_Dimension dim,
591	FT_UInt end_point )
592	{
593	FT_UInt count = dim->masks.num_masks;
594
595
596	if ( count > `0` )
597	{
598	PS_Mask mask = dim->masks.masks + count - `1`;
599
600
601	mask->end_point = end_point;
602	}
603	}
604
605
606	/ set the end point in the current mask, then create a new empty one /
607	/ (called by "Reset" method) /
608	static FT_Error
609	ps_dimension_reset_mask( PS_Dimension dim,
610	FT_UInt end_point,
611	FT_Memory memory )
612	{
613	PS_Mask mask;
614
615
616	/ end current mask /
617	ps_dimension_end_mask( dim, end_point );
618
619	/ allocate new one /
620	return ps_mask_table_alloc( &dim->masks, memory, &mask );
621	}
622
623
624	/ set a new mask, called from the "T2Stem" method /
625	static FT_Error
626	ps_dimension_set_mask_bits( PS_Dimension dim,
627	const FT_Byte* source,
628	FT_UInt source_pos,
629	FT_UInt source_bits,
630	FT_UInt end_point,
631	FT_Memory memory )
632	{
633	FT_Error error;
634
635
636	/ reset current mask, if any /
637	error = ps_dimension_reset_mask( dim, end_point, memory );
638	if ( error )
639	goto Exit;
640
641	/ set bits in new mask /
642	error = ps_mask_table_set_bits( &dim->masks, source,
643	source_pos, source_bits, memory );
644
645	Exit:
646	return error;
647	}
648
649
650	/ add a new single stem (called from "T1Stem" method) /
651	static FT_Error
652	ps_dimension_add_t1stem( PS_Dimension dim,
653	FT_Int pos,
654	FT_Int len,
655	FT_Memory memory,
656	FT_Int *aindex )
657	{
658	FT_Error error = FT_Err_Ok;
659	FT_UInt flags = `0`;
660
661
662	/ detect ghost stem /
663	if ( len < `0` )
664	{
665	flags \|= PS_HINT_FLAG_GHOST;
666	if ( len == -`21` )
667	{
668	flags \|= PS_HINT_FLAG_BOTTOM;
669	pos += len;
670	}
671	len = `0`;
672	}
673
674	if ( aindex )
675	*aindex = -`1`;
676
677	/ now, lookup stem in the current hints table /
678	{
679	PS_Mask mask;
680	FT_UInt idx;
681	FT_UInt max = dim->hints.num_hints;
682	PS_Hint hint = dim->hints.hints;
683
684
685	for ( idx = `0`; idx < max; idx++, hint++ )
686	{
687	if ( hint->pos == pos && hint->len == len )
688	break;
689	}
690
691	/ we need to create a new hint in the table /
692	if ( idx >= max )
693	{
694	error = ps_hint_table_alloc( &dim->hints, memory, &hint );
695	if ( error )
696	goto Exit;
697
698	hint->pos = pos;
699	hint->len = len;
700	hint->flags = flags;
701	}
702
703	/ now, store the hint in the current mask /
704	error = ps_mask_table_last( &dim->masks, memory, &mask );
705	if ( error )
706	goto Exit;
707
708	error = ps_mask_set_bit( mask, idx, memory );
709	if ( error )
710	goto Exit;
711
712	if ( aindex )
713	*aindex = (FT_Int)idx;
714	}
715
716	Exit:
717	return error;
718	}
719
720
721	/ add a "hstem3/vstem3" counter to our dimension table /
722	static FT_Error
723	ps_dimension_add_counter( PS_Dimension dim,
724	FT_Int hint1,
725	FT_Int hint2,
726	FT_Int hint3,
727	FT_Memory memory )
728	{
729	FT_Error error = FT_Err_Ok;
730	FT_UInt count = dim->counters.num_masks;
731	PS_Mask counter = dim->counters.masks;
732
733
734	/ try to find an existing counter mask that already uses /
735	/ one of these stems here /
736	for ( ; count > `0`; count--, counter++ )
737	{
738	if ( ps_mask_test_bit( counter, hint1 ) \|\|
739	ps_mask_test_bit( counter, hint2 ) \|\|
740	ps_mask_test_bit( counter, hint3 ) )
741	break;
742	}
743
744	/ create a new counter when needed /
745	if ( count == `0` )
746	{
747	error = ps_mask_table_alloc( &dim->counters, memory, &counter );
748	if ( error )
749	goto Exit;
750	}
751
752	/ now, set the bits for our hints in the counter mask /
753	if ( hint1 >= `0` )
754	{
755	error = ps_mask_set_bit( counter, (FT_UInt)hint1, memory );
756	if ( error )
757	goto Exit;
758	}
759
760	if ( hint2 >= `0` )
761	{
762	error = ps_mask_set_bit( counter, (FT_UInt)hint2, memory );
763	if ( error )
764	goto Exit;
765	}
766
767	if ( hint3 >= `0` )
768	{
769	error = ps_mask_set_bit( counter, (FT_UInt)hint3, memory );
770	if ( error )
771	goto Exit;
772	}
773
774	Exit:
775	return error;
776	}
777
778
779	/ end of recording session for a given dimension /
780	static FT_Error
781	ps_dimension_end( PS_Dimension dim,
782	FT_UInt end_point,
783	FT_Memory memory )
784	{
785	/ end hint mask table /
786	ps_dimension_end_mask( dim, end_point );
787
788	/ merge all counter masks into independent "paths" /
789	return ps_mask_table_merge_all( &dim->counters, memory );
790	}
791
792
793	/***********************************************************************/
794	/***********************************************************************/
795	/** **/
796	/** PS_RECORDER MANAGEMENT **/
797	/** **/
798	/***********************************************************************/
799	/***********************************************************************/
800
801
802	/ destroy hints /
803	FT_LOCAL( void )
804	ps_hints_done( PS_Hints hints )
805	{
806	FT_Memory memory = hints->memory;
807
808
809	ps_dimension_done( &hints->dimension[`0`], memory );
810	ps_dimension_done( &hints->dimension[`1`], memory );
811
812	hints->error = FT_Err_Ok;
813	hints->memory = NULL;
814	}
815
816
817	FT_LOCAL( void )
818	ps_hints_init( PS_Hints hints,
819	FT_Memory memory )
820	{
821	FT_ZERO( hints );
822	hints->memory = memory;
823	}
824
825
826	/ initialize a hints for a new session /
827	static void
828	ps_hints_open( PS_Hints hints,
829	PS_Hint_Type hint_type )
830	{
831	hints->error = FT_Err_Ok;
832	hints->hint_type = hint_type;
833
834	ps_dimension_init( &hints->dimension[`0`] );
835	ps_dimension_init( &hints->dimension[`1`] );
836	}
837
838
839	/ add one or more stems to the current hints table /
840	static void
841	ps_hints_stem( PS_Hints hints,
842	FT_UInt dimension,
843	FT_Int count,
844	FT_Long* stems )
845	{
846	PS_Dimension dim;
847
848
849	if ( hints->error )
850	return;
851
852	/ limit "dimension" to 0..1 /
853	if ( dimension > `1` )
854	{
855	FT_TRACE0(( "ps_hints_stem: invalid dimension (%d) used\n",
856	dimension ));
857	dimension = ( dimension != `0` );
858	}
859
860	/ record the stems in the current hints/masks table /
861	/ (Type 1 & 2's `hstem' or `vstem' operators) /
862	dim = &hints->dimension[dimension];
863
864	for ( ; count > `0`; count--, stems += `2` )
865	{
866	FT_Error error;
867	FT_Memory memory = hints->memory;
868
869
870	error = ps_dimension_add_t1stem( dim,
871	(FT_Int)stems[`0`],
872	(FT_Int)stems[`1`],
873	memory,
874	NULL );
875	if ( error )
876	{
877	FT_ERROR(( "ps_hints_stem: could not add stem"
878	" (%d,%d) to hints table\n", stems[`0`], stems[`1`] ));
879
880	hints->error = error;
881	return;
882	}
883	}
884	}
885
886
887	/ add one Type1 counter stem to the current hints table /
888	static void
889	ps_hints_t1stem3( PS_Hints hints,
890	FT_UInt dimension,
891	FT_Fixed* stems )
892	{
893	FT_Error error = FT_Err_Ok;
894
895
896	if ( !hints->error )
897	{
898	PS_Dimension dim;
899	FT_Memory memory = hints->memory;
900	FT_Int count;
901	FT_Int idx[`3`];
902
903
904	/ limit "dimension" to 0..1 /
905	if ( dimension > `1` )
906	{
907	FT_TRACE0(( "ps_hints_t1stem3: invalid dimension (%d) used\n",
908	dimension ));
909	dimension = ( dimension != `0` );
910	}
911
912	dim = &hints->dimension[dimension];
913
914	/ there must be 6 elements in the 'stem' array /
915	if ( hints->hint_type == PS_HINT_TYPE_1 )
916	{
917	/ add the three stems to our hints/masks table /
918	for ( count = `0`; count < `3`; count++, stems += `2` )
919	{
920	error = ps_dimension_add_t1stem( dim,
921	(FT_Int)FIXED_TO_INT( stems[`0`] ),
922	(FT_Int)FIXED_TO_INT( stems[`1`] ),
923	memory, &idx[count] );
924	if ( error )
925	goto Fail;
926	}
927
928	/ now, add the hints to the counters table /
929	error = ps_dimension_add_counter( dim, idx[`0`], idx[`1`], idx[`2`],
930	memory );
931	if ( error )
932	goto Fail;
933	}
934	else
935	{
936	FT_ERROR(( "ps_hints_t1stem3: called with invalid hint type\n" ));
937	error = FT_THROW( Invalid_Argument );
938	goto Fail;
939	}
940	}
941
942	return;
943
944	Fail:
945	FT_ERROR(( "ps_hints_t1stem3: could not add counter stems to table\n" ));
946	hints->error = error;
947	}
948
949
950	/ reset hints (only with Type 1 hints) /
951	static void
952	ps_hints_t1reset( PS_Hints hints,
953	FT_UInt end_point )
954	{
955	FT_Error error = FT_Err_Ok;
956
957
958	if ( !hints->error )
959	{
960	FT_Memory memory = hints->memory;
961
962
963	if ( hints->hint_type == PS_HINT_TYPE_1 )
964	{
965	error = ps_dimension_reset_mask( &hints->dimension[`0`],
966	end_point, memory );
967	if ( error )
968	goto Fail;
969
970	error = ps_dimension_reset_mask( &hints->dimension[`1`],
971	end_point, memory );
972	if ( error )
973	goto Fail;
974	}
975	else
976	{
977	/ invalid hint type /
978	error = FT_THROW( Invalid_Argument );
979	goto Fail;
980	}
981	}
982	return;
983
984	Fail:
985	hints->error = error;
986	}
987
988
989	/ Type2 "hintmask" operator, add a new hintmask to each direction /
990	static void
991	ps_hints_t2mask( PS_Hints hints,
992	FT_UInt end_point,
993	FT_UInt bit_count,
994	const FT_Byte* bytes )
995	{
996	FT_Error error;
997
998
999	if ( !hints->error )
1000	{
1001	PS_Dimension dim = hints->dimension;
1002	FT_Memory memory = hints->memory;
1003	FT_UInt count1 = dim[`0`].hints.num_hints;
1004	FT_UInt count2 = dim[`1`].hints.num_hints;
1005
1006
1007	/ check bit count; must be equal to current total hint count /
1008	if ( bit_count != count1 + count2 )
1009	{
1010	FT_TRACE0(( "ps_hints_t2mask:"
1011	" called with invalid bitcount %d (instead of %d)\n",
1012	bit_count, count1 + count2 ));
1013
1014	/ simply ignore the operator /
1015	return;
1016	}
1017
1018	/ set-up new horizontal and vertical hint mask now /
1019	error = ps_dimension_set_mask_bits( &dim[`0`], bytes, count2, count1,
1020	end_point, memory );
1021	if ( error )
1022	goto Fail;
1023
1024	error = ps_dimension_set_mask_bits( &dim[`1`], bytes, `0`, count2,
1025	end_point, memory );
1026	if ( error )
1027	goto Fail;
1028	}
1029	return;
1030
1031	Fail:
1032	hints->error = error;
1033	}
1034
1035
1036	static void
1037	ps_hints_t2counter( PS_Hints hints,
1038	FT_UInt bit_count,
1039	const FT_Byte* bytes )
1040	{
1041	FT_Error error;
1042
1043
1044	if ( !hints->error )
1045	{
1046	PS_Dimension dim = hints->dimension;
1047	FT_Memory memory = hints->memory;
1048	FT_UInt count1 = dim[`0`].hints.num_hints;
1049	FT_UInt count2 = dim[`1`].hints.num_hints;
1050
1051
1052	/ check bit count, must be equal to current total hint count /
1053	if ( bit_count != count1 + count2 )
1054	{
1055	FT_TRACE0(( "ps_hints_t2counter:"
1056	" called with invalid bitcount %d (instead of %d)\n",
1057	bit_count, count1 + count2 ));
1058
1059	/ simply ignore the operator /
1060	return;
1061	}
1062
1063	/ set-up new horizontal and vertical hint mask now /
1064	error = ps_dimension_set_mask_bits( &dim[`0`], bytes, `0`, count1,
1065	`0`, memory );
1066	if ( error )
1067	goto Fail;
1068
1069	error = ps_dimension_set_mask_bits( &dim[`1`], bytes, count1, count2,
1070	`0`, memory );
1071	if ( error )
1072	goto Fail;
1073	}
1074	return;
1075
1076	Fail:
1077	hints->error = error;
1078	}
1079
1080
1081	/ end recording session /
1082	static FT_Error
1083	ps_hints_close( PS_Hints hints,
1084	FT_UInt end_point )
1085	{
1086	FT_Error error;
1087
1088
1089	error = hints->error;
1090	if ( !error )
1091	{
1092	FT_Memory memory = hints->memory;
1093	PS_Dimension dim = hints->dimension;
1094
1095
1096	error = ps_dimension_end( &dim[`0`], end_point, memory );
1097	if ( !error )
1098	{
1099	error = ps_dimension_end( &dim[`1`], end_point, memory );
1100	}
1101	}
1102
1103	#ifdef DEBUG_HINTER
1104	if ( !error )
1105	ps_debug_hints = hints;
1106	#endif
1107	return error;
1108	}
1109
1110
1111	/***********************************************************************/
1112	/***********************************************************************/
1113	/** **/
1114	/** TYPE 1 HINTS RECORDING INTERFACE **/
1115	/** **/
1116	/***********************************************************************/
1117	/***********************************************************************/
1118
1119	static void
1120	t1_hints_open( T1_Hints hints )
1121	{
1122	ps_hints_open( (PS_Hints)hints, PS_HINT_TYPE_1 );
1123	}
1124
1125	static void
1126	t1_hints_stem( T1_Hints hints,
1127	FT_UInt dimension,
1128	FT_Fixed* coords )
1129	{
1130	FT_Pos stems[`2`];
1131
1132
1133	stems[`0`] = FIXED_TO_INT( coords[`0`] );
1134	stems[`1`] = FIXED_TO_INT( coords[`1`] );
1135
1136	ps_hints_stem( (PS_Hints)hints, dimension, `1`, stems );
1137	}
1138
1139
1140	FT_LOCAL_DEF( void )
1141	t1_hints_funcs_init( T1_Hints_FuncsRec* funcs )
1142	{
1143	FT_ZERO( funcs );
1144
1145	funcs->open = (T1_Hints_OpenFunc) t1_hints_open;
1146	funcs->close = (T1_Hints_CloseFunc) ps_hints_close;
1147	funcs->stem = (T1_Hints_SetStemFunc) t1_hints_stem;
1148	funcs->stem3 = (T1_Hints_SetStem3Func)ps_hints_t1stem3;
1149	funcs->reset = (T1_Hints_ResetFunc) ps_hints_t1reset;
1150	funcs->apply = (T1_Hints_ApplyFunc) ps_hints_apply;
1151	}
1152
1153
1154	/***********************************************************************/
1155	/***********************************************************************/
1156	/** **/
1157	/** TYPE 2 HINTS RECORDING INTERFACE **/
1158	/** **/
1159	/***********************************************************************/
1160	/***********************************************************************/
1161
1162	static void
1163	t2_hints_open( T2_Hints hints )
1164	{
1165	ps_hints_open( (PS_Hints)hints, PS_HINT_TYPE_2 );
1166	}
1167
1168
1169	static void
1170	t2_hints_stems( T2_Hints hints,
1171	FT_UInt dimension,
1172	FT_Int count,
1173	FT_Fixed* coords )
1174	{
1175	FT_Pos stems[`32`], y;
1176	FT_Int total = count, n;
1177
1178
1179	y = `0`;
1180	while ( total > `0` )
1181	{
1182	/ determine number of stems to write /
1183	count = total;
1184	if ( count > `16` )
1185	count = `16`;
1186
1187	/ compute integer stem positions in font units /
1188	for ( n = `0`; n < count * `2`; n++ )
1189	{
1190	y += coords[n];
1191	stems[n] = FIXED_TO_INT( y );
1192	}
1193
1194	/ compute lengths /
1195	for ( n = `0`; n < count * `2`; n += `2` )
1196	stems[n + `1`] = stems[n + `1`] - stems[n];
1197
1198	/ add them to the current dimension /
1199	ps_hints_stem( (PS_Hints)hints, dimension, count, stems );
1200
1201	total -= count;
1202	}
1203	}
1204
1205
1206	FT_LOCAL_DEF( void )
1207	t2_hints_funcs_init( T2_Hints_FuncsRec* funcs )
1208	{
1209	FT_ZERO( funcs );
1210
1211	funcs->open = (T2_Hints_OpenFunc) t2_hints_open;
1212	funcs->close = (T2_Hints_CloseFunc) ps_hints_close;
1213	funcs->stems = (T2_Hints_StemsFunc) t2_hints_stems;
1214	funcs->hintmask= (T2_Hints_MaskFunc) ps_hints_t2mask;
1215	funcs->counter = (T2_Hints_CounterFunc)ps_hints_t2counter;
1216	funcs->apply = (T2_Hints_ApplyFunc) ps_hints_apply;
1217	}
1218
1219
1220	/ END /
1221

Browse the source code of engine/third_party/freetype2/src/pshinter/pshrec.c