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source: soft/giet_vm/applications/rosenfeld/nrc2/src/nrarith2.c @ 772

Last change on this file since 772 was 772, checked in by meunier, 8 years ago
Ajout de l'application rosenfeld Changement du nom du flag O_CREATE en O_CREAT
File size: 44.5 KB

Line
1	/* ------------------ */
2	/* --- nrarith2.c --- */
3	/* ------------------ */
4
5	/*
6	* Copyright (c) 2000-2014, Lionel Lacassagne, All rights reserved
7	* Univ Paris Sud XI, CNRS
8	*
9	* Distributed under the Boost Software License, Version 1.0
10	* see accompanying file LICENSE.txt or copy it at
11	* http://www.boost.org/LICENSE_1_0.txt
12	*/
13
14	#include <stdio.h>
15	#include <stddef.h>
16	#include <stdlib.h>
17	#include <malloc.h>
18	#include <math.h> // fabs
19	// #include <memory.h> // memcpy
20
21	#include "mypredef.h"
22	#include "nrtype.h"
23	#include "nrdef.h"
24	#include "nrmacro.h"
25	#include "nrkernel.h"
26
27	#include "nrarith1.h"
28	#include "nrarith2.h"
29
30	/* ------------------ */
31	/* --- min_matrix --- */
32	/* ------------------ */
33
34	/* ----------------------------------------------------------------------------- */
35	IMAGE_EXPORT(sint8) min_si8matrix(sint8 **m, long nrl, long nrh, long ncl, long nch)
36	/* ----------------------------------------------------------------------------- */
37	{
38	int i, j;
39	sint8 minimum = m[nrl][ncl];
40
41	for(i=nrl; i<=nrh; i++) {
42	for(j=ncl; j<=nch; j++) {
43	if(m[i][j]<minimum) minimum = m[i][j];
44	}
45	}
46	return minimum;
47	}
48	/* ------------------------------------------------------------------------------ */
49	IMAGE_EXPORT(uint8) min_ui8matrix(uint8 **m, long nrl, long nrh, long ncl, long nch)
50	/* ------------------------------------------------------------------------------ */
51	{
52	int i, j;
53	uint8 minimum = m[nrl][ncl];
54
55	for(i=nrl; i<=nrh; i++) {
56	for(j=ncl; j<=nch; j++) {
57	if(m[i][j]<minimum) minimum = m[i][j];
58	}
59	}
60	return minimum;
61	}
62	/* --------------------------------------------------------------------------------- */
63	IMAGE_EXPORT(sint16) min_si16matrix(sint16 **m, long nrl, long nrh, long ncl, long nch)
64	/* --------------------------------------------------------------------------------- */
65	{
66	int i, j;
67	sint16 minimum = m[nrl][ncl];
68
69	for(i=nrl; i<=nrh; i++) {
70	for(j=ncl; j<=nch; j++) {
71	if(m[i][j]<minimum) minimum = m[i][j];
72	}
73	}
74	return minimum;
75	}
76	/* --------------------------------------------------------------------------------- */
77	IMAGE_EXPORT(uint16) min_ui16matrix(uint16 **m, long nrl, long nrh, long ncl, long nch)
78	/* --------------------------------------------------------------------------------- */
79	{
80	int i, j;
81	uint16 minimum = m[nrl][ncl];
82
83	for(i=nrl; i<=nrh; i++) {
84	for(j=ncl; j<=nch; j++) {
85	if(m[i][j]<minimum) minimum = m[i][j];
86	}
87	}
88	return minimum;
89	}
90	/* --------------------------------------------------------------------------------- */
91	IMAGE_EXPORT(sint32) min_si32matrix(sint32 **m, long nrl, long nrh, long ncl, long nch)
92	/* --------------------------------------------------------------------------------- */
93	{
94	int i, j;
95	sint32 minimum = m[nrl][ncl];
96
97	for(i=nrl; i<=nrh; i++) {
98	for(j=ncl; j<=nch; j++) {
99	if(m[i][j]<minimum) minimum = m[i][j];
100	}
101	}
102	return minimum;
103	}
104	/* --------------------------------------------------------------------------------- */
105	IMAGE_EXPORT(uint32) min_ui32matrix(uint32 **m, long nrl, long nrh, long ncl, long nch)
106	/* --------------------------------------------------------------------------------- */
107	{
108	int i, j;
109	uint32 minimum = m[nrl][ncl];
110
111	for(i=nrl; i<=nrh; i++) {
112	for(j=ncl; j<=nch; j++) {
113	if(m[i][j]<minimum) minimum = m[i][j];
114	}
115	}
116	return minimum;
117	}
118	/* --------------------------------------------------------------------------------- */
119	IMAGE_EXPORT(sint64) min_si64matrix(sint64 **m, long nrl, long nrh, long ncl, long nch)
120	/* --------------------------------------------------------------------------------- */
121	{
122	int i, j;
123	sint64 minimum = m[nrl][ncl];
124
125	for(i=nrl; i<=nrh; i++) {
126	for(j=ncl; j<=nch; j++) {
127	if(m[i][j]<minimum) minimum = m[i][j];
128	}
129	}
130	return minimum;
131	}
132	/* --------------------------------------------------------------------------------- */
133	IMAGE_EXPORT(uint64) min_ui64matrix(uint64 **m, long nrl, long nrh, long ncl, long nch)
134	/* --------------------------------------------------------------------------------- */
135	{
136	int i, j;
137	uint64 minimum = m[nrl][ncl];
138
139	for(i=nrl; i<=nrh; i++) {
140	for(j=ncl; j<=nch; j++) {
141	if(m[i][j]<minimum) minimum = m[i][j];
142	}
143	}
144	return minimum;
145	}
146	/* ---------------------------------------------------------------------------------- */
147	IMAGE_EXPORT(float32) min_f32matrix(float32 **m, long nrl, long nrh, long ncl, long nch)
148	/* ---------------------------------------------------------------------------------- */
149	{
150	int i, j;
151	float32 minimum = m[nrl][ncl];
152
153	for(i=nrl; i<=nrh; i++) {
154	for(j=ncl; j<=nch; j++) {
155	if(m[i][j]<minimum) minimum = m[i][j];
156	}
157	}
158	return minimum;
159	}
160	/* ---------------------------------------------------------------------------------- */
161	IMAGE_EXPORT(float64) min_f64matrix(float64 **m, long nrl, long nrh, long ncl, long nch)
162	/* ---------------------------------------------------------------------------------- */
163	{
164	int i, j;
165	float64 minimum = m[nrl][ncl];
166
167	for(i=nrl; i<=nrh; i++) {
168	for(j=ncl; j<=nch; j++) {
169	if(m[i][j]<minimum) minimum = m[i][j];
170	}
171	}
172	return minimum;
173	}
174
175	/* ------------------ */
176	/* --- max_matrix --- */
177	/* ------------------ */
178
179	/* ----------------------------------------------------------------------------- */
180	IMAGE_EXPORT(sint8) max_si8matrix(sint8 **m, long nrl, long nrh, long ncl, long nch)
181	/* ----------------------------------------------------------------------------- */
182	{
183	int i, j;
184	sint8 minimum = m[nrl][ncl];
185
186	for(i=nrl; i<=nrh; i++) {
187	for(j=ncl; j<=nch; j++) {
188	if(m[i][j]>minimum) minimum = m[i][j];
189	}
190	}
191	return minimum;
192	}
193	/* ------------------------------------------------------------------------------ */
194	IMAGE_EXPORT(uint8) max_ui8matrix(uint8 **m, long nrl, long nrh, long ncl, long nch)
195	/* ------------------------------------------------------------------------------ */
196	{
197	int i, j;
198	uint8 minimum = m[nrl][ncl];
199
200	for(i=nrl; i<=nrh; i++) {
201	for(j=ncl; j<=nch; j++) {
202	if(m[i][j]>minimum) minimum = m[i][j];
203	}
204	}
205	return minimum;
206	}
207	/* --------------------------------------------------------------------------------- */
208	IMAGE_EXPORT(sint16) max_si16matrix(sint16 **m, long nrl, long nrh, long ncl, long nch)
209	/* --------------------------------------------------------------------------------- */
210	{
211	int i, j;
212	sint16 minimum = m[nrl][ncl];
213
214	for(i=nrl; i<=nrh; i++) {
215	for(j=ncl; j<=nch; j++) {
216	if(m[i][j]>minimum) minimum = m[i][j];
217	}
218	}
219	return minimum;
220	}
221	/* --------------------------------------------------------------------------------- */
222	IMAGE_EXPORT(uint16) max_ui16matrix(uint16 **m, long nrl, long nrh, long ncl, long nch)
223	/* --------------------------------------------------------------------------------- */
224	{
225	int i, j;
226	uint16 minimum = m[nrl][ncl];
227
228	for(i=nrl; i<=nrh; i++) {
229	for(j=ncl; j<=nch; j++) {
230	if(m[i][j]>minimum) minimum = m[i][j];
231	}
232	}
233	return minimum;
234	}
235	/* --------------------------------------------------------------------------------- */
236	IMAGE_EXPORT(sint32) max_si32matrix(sint32 **m, long nrl, long nrh, long ncl, long nch)
237	/* --------------------------------------------------------------------------------- */
238	{
239	int i, j;
240	sint32 minimum = m[nrl][ncl];
241
242	for(i=nrl; i<=nrh; i++) {
243	for(j=ncl; j<=nch; j++) {
244	if(m[i][j]>minimum) minimum = m[i][j];
245	}
246	}
247	return minimum;
248	}
249	/* --------------------------------------------------------------------------------- */
250	IMAGE_EXPORT(uint32) max_ui32matrix(uint32 **m, long nrl, long nrh, long ncl, long nch)
251	/* --------------------------------------------------------------------------------- */
252	{
253	int i, j;
254	uint32 minimum = m[nrl][ncl];
255
256	for(i=nrl; i<=nrh; i++) {
257	for(j=ncl; j<=nch; j++) {
258	if(m[i][j]>minimum) minimum = m[i][j];
259	}
260	}
261	return minimum;
262	}
263	/* --------------------------------------------------------------------------------- */
264	IMAGE_EXPORT(sint64) max_si64matrix(sint64 **m, long nrl, long nrh, long ncl, long nch)
265	/* --------------------------------------------------------------------------------- */
266	{
267	int i, j;
268	sint64 minimum = m[nrl][ncl];
269
270	for(i=nrl; i<=nrh; i++) {
271	for(j=ncl; j<=nch; j++) {
272	if(m[i][j]>minimum) minimum = m[i][j];
273	}
274	}
275	return minimum;
276	}
277	/* --------------------------------------------------------------------------------- */
278	IMAGE_EXPORT(uint64) max_ui64matrix(uint64 **m, long nrl, long nrh, long ncl, long nch)
279	/* --------------------------------------------------------------------------------- */
280	{
281	int i, j;
282	uint64 minimum = m[nrl][ncl];
283
284	for(i=nrl; i<=nrh; i++) {
285	for(j=ncl; j<=nch; j++) {
286	if(m[i][j]>minimum) minimum = m[i][j];
287	}
288	}
289	return minimum;
290	}
291	/* ---------------------------------------------------------------------------------- */
292	IMAGE_EXPORT(float32) max_f32matrix(float32 **m, long nrl, long nrh, long ncl, long nch)
293	/* ---------------------------------------------------------------------------------- */
294	{
295	int i, j;
296	float32 minimum = m[nrl][ncl];
297
298	for(i=nrl; i<=nrh; i++) {
299	for(j=ncl; j<=nch; j++) {
300	if(m[i][j]>minimum) minimum = m[i][j];
301	}
302	}
303	return minimum;
304	}
305	/* ---------------------------------------------------------------------------------- */
306	IMAGE_EXPORT(float64) max_f64matrix(float64 **m, long nrl, long nrh, long ncl, long nch)
307	/* ---------------------------------------------------------------------------------- */
308	{
309	int i, j;
310	float64 minimum = m[nrl][ncl];
311
312	for(i=nrl; i<=nrh; i++) {
313	for(j=ncl; j<=nch; j++) {
314	if(m[i][j]>minimum) minimum = m[i][j];
315	}
316	}
317	return minimum;
318	}
319
320	/* -------------------------------------------------------------------------------------------------- */
321	IMAGE_EXPORT(void) add_si8matrix(sint8 X, long nrl,long nrh, long ncl, long nch, sint8 Y, sint8 **Z)
322	/* -------------------------------------------------------------------------------------------------- */
323	{
324	long i, j;
325
326	for(i=nrl; i<=nrh; i++) {
327	for(j=ncl; j<=nch; j++) {
328	Z[i][j] = X[i][j] + Y[i][j];
329	}
330	}
331	}
332
333	/* ------------------ */
334	/* --- Add Matrix --- */
335	/* ------------------ */
336
337	/* -------------------------------------------------------------------------------------------------- */
338	IMAGE_EXPORT(void) add_ui8matrix(uint8 X, long nrl,long nrh, long ncl, long nch, uint8 Y, uint8 **Z)
339	/* -------------------------------------------------------------------------------------------------- */
340	{
341	long i, j;
342
343	for(i=nrl; i<=nrh; i++) {
344	for(j=ncl; j<=nch; j++) {
345	Z[i][j] = X[i][j] + Y[i][j];
346	}
347	}
348	}
349	/* ------------------------------------------------------------------------------------------------------ */
350	IMAGE_EXPORT(void) add_si16matrix(sint16 X, long nrl,long nrh, long ncl, long nch, sint16 Y, sint16 **Z)
351	/* ------------------------------------------------------------------------------------------------------ */
352	{
353	long i, j;
354
355	for(i=nrl; i<=nrh; i++) {
356	for(j=ncl; j<=nch; j++) {
357	Z[i][j] = X[i][j] + Y[i][j];
358	}
359	}
360	}
361	/* ------------------------------------------------------------------------------------------------------ */
362	IMAGE_EXPORT(void) add_ui16matrix(uint16 X, long nrl,long nrh, long ncl, long nch, uint16 Y, uint16 **Z)
363	/* ------------------------------------------------------------------------------------------------------ */
364	{
365	long i, j;
366
367	for(i=nrl; i<=nrh; i++) {
368	for(j=ncl; j<=nch; j++) {
369	Z[i][j] = X[i][j] + Y[i][j];
370	}
371	}
372	}
373	/* ------------------------------------------------------------------------------------------------------ */
374	IMAGE_EXPORT(void) add_si32matrix(sint32 X, long nrl,long nrh, long ncl, long nch, sint32 Y, sint32 **Z)
375	/* ------------------------------------------------------------------------------------------------------ */
376	{
377	long i, j;
378
379	for(i=nrl; i<=nrh; i++) {
380	for(j=ncl; j<=nch; j++) {
381	Z[i][j] = X[i][j] + Y[i][j];
382	}
383	}
384	}
385	/* ------------------------------------------------------------------------------------------------------ */
386	IMAGE_EXPORT(void) add_ui32matrix(uint32 X, long nrl,long nrh, long ncl, long nch, uint32 Y, uint32 **Z)
387	/* ------------------------------------------------------------------------------------------------------ */
388	{
389	long i, j;
390
391	for(i=nrl; i<=nrh; i++) {
392	for(j=ncl; j<=nch; j++) {
393	Z[i][j] = X[i][j] + Y[i][j];
394	}
395	}
396	}
397	/* ------------------------------------------------------------------------------------------------------ */
398	IMAGE_EXPORT(void) add_si64matrix(sint64 X, long nrl,long nrh, long ncl, long nch, sint64 Y, sint64 **Z)
399	/* ------------------------------------------------------------------------------------------------------ */
400	{
401	long i, j;
402
403	for(i=nrl; i<=nrh; i++) {
404	for(j=ncl; j<=nch; j++) {
405	Z[i][j] = X[i][j] + Y[i][j];
406	}
407	}
408	}
409	/* ------------------------------------------------------------------------------------------------------ */
410	IMAGE_EXPORT(void) add_ui64matrix(uint64 X, long nrl,long nrh, long ncl, long nch, uint64 Y, uint64 **Z)
411	/* ------------------------------------------------------------------------------------------------------ */
412	{
413	long i, j;
414
415	for(i=nrl; i<=nrh; i++) {
416	for(j=ncl; j<=nch; j++) {
417	Z[i][j] = X[i][j] + Y[i][j];
418	}
419	}
420	}
421	/* -------------------------------------------------------------------------------------------------------- */
422	IMAGE_EXPORT(void) add_f32matrix(float32 X, long nrl,long nrh, long ncl, long nch, float32 Y, float32 **Z)
423	/* -------------------------------------------------------------------------------------------------------- */
424	{
425	long i, j;
426
427	for(i=nrl; i<=nrh; i++) {
428	for(j=ncl; j<=nch; j++) {
429	Z[i][j] = X[i][j] + Y[i][j];
430	}
431	}
432	}
433	/* -------------------------------------------------------------------------------------------------------- */
434	IMAGE_EXPORT(void) add_f64matrix(float64 X, long nrl,long nrh, long ncl, long nch, float64 Y, float64 **Z)
435	/* -------------------------------------------------------------------------------------------------------- */
436	{
437	long i, j;
438
439	for(i=nrl; i<=nrh; i++) {
440	for(j=ncl; j<=nch; j++) {
441	Z[i][j] = X[i][j] + Y[i][j];
442	}
443	}
444	}
445	/* ----------------------------------------------------------------------------------------------- */
446	IMAGE_EXPORT(void) add_rgb8matrix(rgb8 X, long nrl,long nrh,long ncl, long nch, rgb8 Y, rgb8 **Z)
447	/* ----------------------------------------------------------------------------------------------- */
448	{
449	long i, j;
450	rgb8 x, y, z;
451
452	for(i=nrl; i<=nrh; i++) {
453	for(j=ncl; j<=nch; j++) {
454	x = X[i][j];
455	y = Y[i][j];
456	//z = x + y;
457	RGB8_ADD(x,y,z);
458	Z[i][j] = z;
459	}
460	}
461	}
462	/* --------------------------------------------------------------------------------------------------- */
463	IMAGE_EXPORT(void) add_rgbx8matrix(rgbx8 X, long nrl,long nrh,long ncl, long nch, rgbx8 Y, rgbx8 **Z)
464	/* --------------------------------------------------------------------------------------------------- */
465	{
466	long i, j;
467	rgbx8 x, y, z;
468
469	for(i=nrl; i<=nrh; i++) {
470	for(j=ncl; j<=nch; j++) {
471	x = X[i][j];
472	y = Y[i][j];
473	//z = x + y;
474	RGBX8_ADD(x,y,z);
475	Z[i][j] = z;
476	}
477	}
478	}
479
480	/* -------------------- */
481	/* --- Add constant --- */
482	/* -------------------- */
483
484	/* ------------------------------------------------------------------------------------------------ */
485	IMAGE_EXPORT(void) addc_si8matrix(sint8 X,long nrl,long nrh, long ncl, long nch, sint8 y, sint8 Z)
486	/* ------------------------------------------------------------------------------------------------ */
487	{
488	long i,j;
489
490	for(i=nrl; i<=nrh; i++) {
491	for(j=ncl; j<=nch; j++) {
492	Z[i][j] = X[i][j] + y;
493	}
494	}
495	}
496	/* ------------------------------------------------------------------------------------------------ */
497	IMAGE_EXPORT(void) addc_ui8matrix(uint8 X,long nrl,long nrh, long ncl, long nch, uint8 y, uint8 Z)
498	/* ------------------------------------------------------------------------------------------------ */
499	{
500	long i,j;
501
502	for(i=nrl; i<=nrh; i++) {
503	for(j=ncl; j<=nch; j++) {
504	Z[i][j] = X[i][j] + y;
505	}
506	}
507	}
508	/* ---------------------------------------------------------------------------------------------------- */
509	IMAGE_EXPORT(void) addc_si16matrix(sint16 X,long nrl,long nrh, long ncl, long nch, sint16 y, sint16 Z)
510	/* ---------------------------------------------------------------------------------------------------- */
511	{
512	long i,j;
513
514	for(i=nrl; i<=nrh; i++) {
515	for(j=ncl; j<=nch; j++) {
516	Z[i][j] = X[i][j] + y;
517	}
518	}
519	}
520	/* ---------------------------------------------------------------------------------------------------- */
521	IMAGE_EXPORT(void) addc_ui16matrix(uint16 X,long nrl,long nrh, long ncl, long nch, uint16 y, uint16 Z)
522	/* ---------------------------------------------------------------------------------------------------- */
523	{
524	long i,j;
525
526	for(i=nrl; i<=nrh; i++) {
527	for(j=ncl; j<=nch; j++) {
528	Z[i][j] = X[i][j] + y;
529	}
530	}
531	}
532	/* ---------------------------------------------------------------------------------------------------- */
533	IMAGE_EXPORT(void) addc_si32matrix(sint32 X,long nrl,long nrh, long ncl, long nch, sint32 y, sint32 Z)
534	/* ---------------------------------------------------------------------------------------------------- */
535	{
536	long i,j;
537
538	for(i=nrl; i<=nrh; i++) {
539	for(j=ncl; j<=nch; j++) {
540	Z[i][j] = X[i][j] + y;
541	}
542	}
543	}
544	/* ---------------------------------------------------------------------------------------------------- */
545	IMAGE_EXPORT(void) addc_ui32matrix(uint32 X,long nrl,long nrh, long ncl, long nch, uint32 y, uint32 Z)
546	/* ---------------------------------------------------------------------------------------------------- */
547	{
548	long i,j;
549
550	for(i=nrl; i<=nrh; i++) {
551	for(j=ncl; j<=nch; j++) {
552	Z[i][j] = X[i][j] + y;
553	}
554	}
555	}
556	/* ---------------------------------------------------------------------------------------------------- */
557	IMAGE_EXPORT(void) addc_si64matrix(sint64 X,long nrl,long nrh, long ncl, long nch, sint64 y, sint64 Z)
558	/* ---------------------------------------------------------------------------------------------------- */
559	{
560	long i,j;
561
562	for(i=nrl; i<=nrh; i++) {
563	for(j=ncl; j<=nch; j++) {
564	Z[i][j] = X[i][j] + y;
565	}
566	}
567	}
568	/* ---------------------------------------------------------------------------------------------------- */
569	IMAGE_EXPORT(void) addc_ui64matrix(uint64 X,long nrl,long nrh, long ncl, long nch, uint64 y, uint64 Z)
570	/* ---------------------------------------------------------------------------------------------------- */
571	{
572	long i,j;
573
574	for(i=nrl; i<=nrh; i++) {
575	for(j=ncl; j<=nch; j++) {
576	Z[i][j] = X[i][j] + y;
577	}
578	}
579	}
580	/* ------------------------------------------------------------------------------------------------------ */
581	IMAGE_EXPORT(void) addc_f32matrix(float32 X,long nrl,long nrh, long ncl, long nch, float32 y, float32 Z)
582	/* ------------------------------------------------------------------------------------------------------ */
583	{
584	long i,j;
585
586	for(i=nrl; i<=nrh; i++) {
587	for(j=ncl; j<=nch; j++) {
588	Z[i][j] = X[i][j] + y;
589	}
590	}
591	}
592	/* ------------------------------------------------------------------------------------------------------ */
593	IMAGE_EXPORT(void) addc_f64matrix(float64 X,long nrl,long nrh, long ncl, long nch, float64 y, float64 Z)
594	/* ------------------------------------------------------------------------------------------------------ */
595	{
596	long i,j;
597
598	for(i=nrl; i<=nrh; i++) {
599	for(j=ncl; j<=nch; j++) {
600	Z[i][j] = X[i][j] + y;
601	}
602	}
603	}
604	/* ---------------------------------------------------------------------------------------------- */
605	IMAGE_EXPORT(void) addc_rgb8matrix(rgb8 X,long nrl,long nrh, long ncl, long nch, rgb8 y, rgb8 Z)
606	/* ---------------------------------------------------------------------------------------------- */
607	{
608	long i,j;
609	rgb8 x, z;
610
611	for(i=nrl; i<=nrh; i++) {
612	for(j=ncl; j<=nch; j++) {
613	x = X[i][j];
614	RGB8_ADD(x,y,z);
615	Z[i][j] = z;
616	}
617	}
618	}
619	/* -------------------------------------------------------------------------------------------------- */
620	IMAGE_EXPORT(void) addc_rgbx8matrix(rgbx8 X,long nrl,long nrh, long ncl, long nch, rgbx8 y, rgbx8 Z)
621	/* -------------------------------------------------------------------------------------------------- */
622	{
623	long i,j;
624	rgbx8 x, z;
625
626	for(i=nrl; i<=nrh; i++) {
627	for(j=ncl; j<=nch; j++) {
628	x = X[i][j];
629	RGBX8_ADD(x,y,z);
630	Z[i][j] = z;
631	}
632	}
633	}
634	/* ------------------ */
635	/* --- Add Matrix --- */
636	/* ------------------ */
637
638	/* -------------------------------------------------------------------------------------------------- */
639	IMAGE_EXPORT(void) sub_ui8matrix(uint8 X, long nrl,long nrh, long ncl, long nch, uint8 Y, uint8 **Z)
640	/* -------------------------------------------------------------------------------------------------- */
641	{
642	long i, j;
643
644	for(i=nrl; i<=nrh; i++) {
645	for(j=ncl; j<=nch; j++) {
646	Z[i][j] = X[i][j] - Y[i][j];
647	}
648	}
649	}
650	/* ------------------------------------------------------------------------------------------------------ */
651	IMAGE_EXPORT(void) sub_si16matrix(sint16 X, long nrl,long nrh, long ncl, long nch, sint16 Y, sint16 **Z)
652	/* ------------------------------------------------------------------------------------------------------ */
653	{
654	long i, j;
655
656	for(i=nrl; i<=nrh; i++) {
657	for(j=ncl; j<=nch; j++) {
658	Z[i][j] = X[i][j] - Y[i][j];
659	}
660	}
661	}
662	/* ------------------------------------------------------------------------------------------------------ */
663	IMAGE_EXPORT(void) sub_ui16matrix(uint16 X, long nrl,long nrh, long ncl, long nch, uint16 Y, uint16 **Z)
664	/* ------------------------------------------------------------------------------------------------------ */
665	{
666	long i, j;
667
668	for(i=nrl; i<=nrh; i++) {
669	for(j=ncl; j<=nch; j++) {
670	Z[i][j] = X[i][j] - Y[i][j];
671	}
672	}
673	}
674	/* ------------------------------------------------------------------------------------------------------ */
675	IMAGE_EXPORT(void) sub_si32matrix(sint32 X, long nrl,long nrh, long ncl, long nch, sint32 Y, sint32 **Z)
676	/* ------------------------------------------------------------------------------------------------------ */
677	{
678	long i, j;
679
680	for(i=nrl; i<=nrh; i++) {
681	for(j=ncl; j<=nch; j++) {
682	Z[i][j] = X[i][j] - Y[i][j];
683	}
684	}
685	}
686	/* ------------------------------------------------------------------------------------------------------ */
687	IMAGE_EXPORT(void) sub_ui32matrix(uint32 X, long nrl,long nrh, long ncl, long nch, uint32 Y, uint32 **Z)
688	/* ------------------------------------------------------------------------------------------------------ */
689	{
690	long i, j;
691
692	for(i=nrl; i<=nrh; i++) {
693	for(j=ncl; j<=nch; j++) {
694	Z[i][j] = X[i][j] - Y[i][j];
695	}
696	}
697	}
698	/* ------------------------------------------------------------------------------------------------------ */
699	IMAGE_EXPORT(void) sub_si64matrix(sint64 X, long nrl,long nrh, long ncl, long nch, sint64 Y, sint64 **Z)
700	/* ------------------------------------------------------------------------------------------------------ */
701	{
702	long i, j;
703
704	for(i=nrl; i<=nrh; i++) {
705	for(j=ncl; j<=nch; j++) {
706	Z[i][j] = X[i][j] - Y[i][j];
707	}
708	}
709	}
710	/* ------------------------------------------------------------------------------------------------------ */
711	IMAGE_EXPORT(void) sub_ui64matrix(uint64 X, long nrl,long nrh, long ncl, long nch, uint64 Y, uint64 **Z)
712	/* ------------------------------------------------------------------------------------------------------ */
713	{
714	long i, j;
715
716	for(i=nrl; i<=nrh; i++) {
717	for(j=ncl; j<=nch; j++) {
718	Z[i][j] = X[i][j] - Y[i][j];
719	}
720	}
721	}
722	/* -------------------------------------------------------------------------------------------------------- */
723	IMAGE_EXPORT(void) sub_f32matrix(float32 X, long nrl,long nrh, long ncl, long nch, float32 Y, float32 **Z)
724	/* -------------------------------------------------------------------------------------------------------- */
725	{
726	long i, j;
727
728	for(i=nrl; i<=nrh; i++) {
729	for(j=ncl; j<=nch; j++) {
730	Z[i][j] = X[i][j] - Y[i][j];
731	}
732	}
733	}
734	/* -------------------------------------------------------------------------------------------------------- */
735	IMAGE_EXPORT(void) sub_f64matrix(float64 X, long nrl,long nrh, long ncl, long nch, float64 Y, float64 **Z)
736	/* -------------------------------------------------------------------------------------------------------- */
737	{
738	long i, j;
739
740	for(i=nrl; i<=nrh; i++) {
741	for(j=ncl; j<=nch; j++) {
742	Z[i][j] = X[i][j] - Y[i][j];
743	}
744	}
745	}
746	/* ----------------------------------------------------------------------------------------------- */
747	IMAGE_EXPORT(void) sub_rgb8matrix(rgb8 X, long nrl,long nrh,long ncl, long nch, rgb8 Y, rgb8 **Z)
748	/* ----------------------------------------------------------------------------------------------- */
749	{
750	long i, j;
751	rgb8 x, y, z;
752
753	for(i=nrl; i<=nrh; i++) {
754	for(j=ncl; j<=nch; j++) {
755	x = X[i][j];
756	y = Y[i][j];
757	RGB8_SUB(x,y,z);
758	Z[i][j] = z;
759	}
760	}
761	}
762	/* --------------------------------------------------------------------------------------------------- */
763	IMAGE_EXPORT(void) sub_rgbx8matrix(rgbx8 X, long nrl,long nrh,long ncl, long nch, rgbx8 Y, rgbx8 **Z)
764	/* --------------------------------------------------------------------------------------------------- */
765	{
766	long i, j;
767	rgbx8 x, y, z;
768
769	for(i=nrl; i<=nrh; i++) {
770	for(j=ncl; j<=nch; j++) {
771	x = X[i][j];
772	y = Y[i][j];
773	RGBX8_SUB(x,y,z);
774	Z[i][j] = z;
775	}
776	}
777	}
778
779	/* -------------------- */
780	/* --- Sub constant --- */
781	/* -------------------- */
782
783	/* ------------------------------------------------------------------------------------------------ */
784	IMAGE_EXPORT(void) subc_si8matrix(sint8 X,long nrl,long nrh, long ncl, long nch, sint8 y, sint8 Z)
785	/* ------------------------------------------------------------------------------------------------ */
786	{
787	long i,j;
788
789	for(i=nrl; i<=nrh; i++) {
790	for(j=ncl; j<=nch; j++) {
791	Z[i][j] = X[i][j] - y;
792	}
793	}
794	}
795	/* ------------------------------------------------------------------------------------------------ */
796	IMAGE_EXPORT(void) subc_ui8matrix(uint8 X,long nrl,long nrh, long ncl, long nch, uint8 y, uint8 Z)
797	/* ------------------------------------------------------------------------------------------------ */
798	{
799	long i,j;
800
801	for(i=nrl; i<=nrh; i++) {
802	for(j=ncl; j<=nch; j++) {
803	Z[i][j] = X[i][j] - y;
804	}
805	}
806	}
807	/* ---------------------------------------------------------------------------------------------------- */
808	IMAGE_EXPORT(void) subc_si16matrix(sint16 X,long nrl,long nrh, long ncl, long nch, sint16 y, sint16 Z)
809	/* ---------------------------------------------------------------------------------------------------- */
810	{
811	long i,j;
812
813	for(i=nrl; i<=nrh; i++) {
814	for(j=ncl; j<=nch; j++) {
815	Z[i][j] = X[i][j] - y;
816	}
817	}
818	}
819	/* ---------------------------------------------------------------------------------------------------- */
820	IMAGE_EXPORT(void) subc_ui16matrix(uint16 X,long nrl,long nrh, long ncl, long nch, uint16 y, uint16 Z)
821	/* ---------------------------------------------------------------------------------------------------- */
822	{
823	long i,j;
824
825	for(i=nrl; i<=nrh; i++) {
826	for(j=ncl; j<=nch; j++) {
827	Z[i][j] = X[i][j] - y;
828	}
829	}
830	}
831	/* ---------------------------------------------------------------------------------------------------- */
832	IMAGE_EXPORT(void) subc_si32matrix(sint32 X,long nrl,long nrh, long ncl, long nch, sint32 y, sint32 Z)
833	/* ---------------------------------------------------------------------------------------------------- */
834	{
835	long i,j;
836
837	for(i=nrl; i<=nrh; i++) {
838	for(j=ncl; j<=nch; j++) {
839	Z[i][j] = X[i][j] - y;
840	}
841	}
842	}
843	/* ---------------------------------------------------------------------------------------------------- */
844	IMAGE_EXPORT(void) subc_ui32matrix(uint32 X,long nrl,long nrh, long ncl, long nch, uint32 y, uint32 Z)
845	/* ---------------------------------------------------------------------------------------------------- */
846	{
847	long i,j;
848
849	for(i=nrl; i<=nrh; i++) {
850	for(j=ncl; j<=nch; j++) {
851	Z[i][j] = X[i][j] - y;
852	}
853	}
854	}
855	/* ---------------------------------------------------------------------------------------------------- */
856	IMAGE_EXPORT(void) subc_si64matrix(sint64 X,long nrl,long nrh, long ncl, long nch, sint64 y, sint64 Z)
857	/* ---------------------------------------------------------------------------------------------------- */
858	{
859	long i,j;
860
861	for(i=nrl; i<=nrh; i++) {
862	for(j=ncl; j<=nch; j++) {
863	Z[i][j] = X[i][j] - y;
864	}
865	}
866	}
867	/* ---------------------------------------------------------------------------------------------------- */
868	IMAGE_EXPORT(void) subc_ui64matrix(uint64 X,long nrl,long nrh, long ncl, long nch, uint64 y, uint64 Z)
869	/* ---------------------------------------------------------------------------------------------------- */
870	{
871	long i,j;
872
873	for(i=nrl; i<=nrh; i++) {
874	for(j=ncl; j<=nch; j++) {
875	Z[i][j] = X[i][j] - y;
876	}
877	}
878	}
879	/* ------------------------------------------------------------------------------------------------------ */
880	IMAGE_EXPORT(void) subc_f32matrix(float32 X,long nrl,long nrh, long ncl, long nch, float32 y, float32 Z)
881	/* ------------------------------------------------------------------------------------------------------ */
882	{
883	long i,j;
884
885	for(i=nrl; i<=nrh; i++) {
886	for(j=ncl; j<=nch; j++) {
887	Z[i][j] = X[i][j] - y;
888	}
889	}
890	}
891	/* ------------------------------------------------------------------------------------------------------ */
892	IMAGE_EXPORT(void) subc_f64matrix(float64 X,long nrl,long nrh, long ncl, long nch, float64 y, float64 Z)
893	/* ------------------------------------------------------------------------------------------------------ */
894	{
895	long i,j;
896
897	for(i=nrl; i<=nrh; i++) {
898	for(j=ncl; j<=nch; j++) {
899	Z[i][j] = X[i][j] - y;
900	}
901	}
902	}
903	/* ---------------------------------------------------------------------------------------------- */
904	IMAGE_EXPORT(void) subc_rgb8matrix(rgb8 X,long nrl,long nrh, long ncl, long nch, rgb8 y, rgb8 Z)
905	/* ---------------------------------------------------------------------------------------------- */
906	{
907	long i,j;
908	rgb8 x, z;
909
910	for(i=nrl; i<=nrh; i++) {
911	for(j=ncl; j<=nch; j++) {
912	x = X[i][j];
913	RGB8_SUB(x,y,z);
914	Z[i][j] = z;
915	}
916	}
917	}
918	/* -------------------------------------------------------------------------------------------------- */
919	IMAGE_EXPORT(void) subc_rgbx8matrix(rgbx8 X,long nrl,long nrh, long ncl, long nch, rgbx8 y, rgbx8 Z)
920	/* -------------------------------------------------------------------------------------------------- */
921	{
922	long i,j;
923	rgbx8 x, z;
924
925	for(i=nrl; i<=nrh; i++) {
926	for(j=ncl; j<=nch; j++) {
927	x = X[i][j];
928	RGBX8_SUB(x,y,z);
929	Z[i][j] = z;
930	}
931	}
932	}
933	/* -------------------- */
934	/* --- Mul constant --- */
935	/* -------------------- */
936
937	/* ------------------------------------------------------------------------------------------------ */
938	IMAGE_EXPORT(void) mulc_si8matrix(sint8 X,long nrl,long nrh, long ncl, long nch, sint8 y, sint8 Z)
939	/* ------------------------------------------------------------------------------------------------ */
940	{
941	long i,j;
942
943	for(i=nrl; i<=nrh; i++) {
944	for(j=ncl; j<=nch; j++) {
945	Z[i][j] = X[i][j] * y;
946	}
947	}
948	}
949	/* ------------------------------------------------------------------------------------------------ */
950	IMAGE_EXPORT(void) mulc_ui8matrix(uint8 X,long nrl,long nrh, long ncl, long nch, uint8 y, uint8 Z)
951	/* ------------------------------------------------------------------------------------------------ */
952	{
953	long i,j;
954
955	for(i=nrl; i<=nrh; i++) {
956	for(j=ncl; j<=nch; j++) {
957	Z[i][j] = X[i][j] * y;
958	}
959	}
960	}
961	/* ---------------------------------------------------------------------------------------------------- */
962	IMAGE_EXPORT(void) mulc_si16matrix(sint16 X,long nrl,long nrh, long ncl, long nch, sint16 y, sint16 Z)
963	/* ---------------------------------------------------------------------------------------------------- */
964	{
965	long i,j;
966
967	for(i=nrl; i<=nrh; i++) {
968	for(j=ncl; j<=nch; j++) {
969	Z[i][j] = X[i][j] * y;
970	}
971	}
972	}
973	/* ---------------------------------------------------------------------------------------------------- */
974	IMAGE_EXPORT(void) mulc_ui16matrix(uint16 X,long nrl,long nrh, long ncl, long nch, uint16 y, uint16 Z)
975	/* ---------------------------------------------------------------------------------------------------- */
976	{
977	long i,j;
978
979	for(i=nrl; i<=nrh; i++) {
980	for(j=ncl; j<=nch; j++) {
981	Z[i][j] = X[i][j] * y;
982	}
983	}
984	}
985	/* ---------------------------------------------------------------------------------------------------- */
986	IMAGE_EXPORT(void) mulc_si32matrix(sint32 X,long nrl,long nrh, long ncl, long nch, sint32 y, sint32 Z)
987	/* ---------------------------------------------------------------------------------------------------- */
988	{
989	long i,j;
990
991	for(i=nrl; i<=nrh; i++) {
992	for(j=ncl; j<=nch; j++) {
993	Z[i][j] = X[i][j] * y;
994	}
995	}
996	}
997	/* ---------------------------------------------------------------------------------------------------- */
998	IMAGE_EXPORT(void) mulc_ui32matrix(uint32 X,long nrl,long nrh, long ncl, long nch, uint32 y, uint32 Z)
999	/* ---------------------------------------------------------------------------------------------------- */
1000	{
1001	long i,j;
1002
1003	for(i=nrl; i<=nrh; i++) {
1004	for(j=ncl; j<=nch; j++) {
1005	Z[i][j] = X[i][j] * y;
1006	}
1007	}
1008	}
1009	/* ---------------------------------------------------------------------------------------------------- */
1010	IMAGE_EXPORT(void) mulc_si64matrix(sint64 X,long nrl,long nrh, long ncl, long nch, sint64 y, sint64 Z)
1011	/* ---------------------------------------------------------------------------------------------------- */
1012	{
1013	long i,j;
1014
1015	for(i=nrl; i<=nrh; i++) {
1016	for(j=ncl; j<=nch; j++) {
1017	Z[i][j] = X[i][j] * y;
1018	}
1019	}
1020	}
1021	/* ---------------------------------------------------------------------------------------------------- */
1022	IMAGE_EXPORT(void) mulc_ui64matrix(uint64 X,long nrl,long nrh, long ncl, long nch, uint64 y, uint64 Z)
1023	/* ---------------------------------------------------------------------------------------------------- */
1024	{
1025	long i,j;
1026
1027	for(i=nrl; i<=nrh; i++) {
1028	for(j=ncl; j<=nch; j++) {
1029	Z[i][j] = X[i][j] * y;
1030	}
1031	}
1032	}
1033	/* ------------------------------------------------------------------------------------------------------ */
1034	IMAGE_EXPORT(void) mulc_f32matrix(float32 X,long nrl,long nrh, long ncl, long nch, float32 y, float32 Z)
1035	/* ------------------------------------------------------------------------------------------------------ */
1036	{
1037	long i,j;
1038
1039	for(i=nrl; i<=nrh; i++) {
1040	for(j=ncl; j<=nch; j++) {
1041	Z[i][j] = X[i][j] * y;
1042	}
1043	}
1044	}
1045	/* ------------------------------------------------------------------------------------------------------ */
1046	IMAGE_EXPORT(void) mulc_f64matrix(float64 X,long nrl,long nrh, long ncl, long nch, float64 y, float64 Z)
1047	/* ------------------------------------------------------------------------------------------------------ */
1048	{
1049	long i,j;
1050
1051	for(i=nrl; i<=nrh; i++) {
1052	for(j=ncl; j<=nch; j++) {
1053	Z[i][j] = X[i][j] * y;
1054	}
1055	}
1056	}
1057	/* ---------------------------------------------------------------------------------------------- */
1058	IMAGE_EXPORT(void) mulc_rgb8matrix(rgb8 X,long nrl,long nrh, long ncl, long nch, rgb8 y, rgb8 Z)
1059	/* ---------------------------------------------------------------------------------------------- */
1060	{
1061	long i,j;
1062	rgb8 x, z;
1063
1064	for(i=nrl; i<=nrh; i++) {
1065	for(j=ncl; j<=nch; j++) {
1066	x = X[i][j];
1067	RGB8_MUL(x,y,z);
1068	Z[i][j] = z;
1069	}
1070	}
1071	}
1072	/* -------------------------------------------------------------------------------------------------- */
1073	IMAGE_EXPORT(void) mulc_rgbx8matrix(rgbx8 X,long nrl,long nrh, long ncl, long nch, rgbx8 y, rgbx8 Z)
1074	/* -------------------------------------------------------------------------------------------------- */
1075	{
1076	long i,j;
1077	rgbx8 x, z;
1078
1079	for(i=nrl; i<=nrh; i++) {
1080	for(j=ncl; j<=nch; j++) {
1081	x = X[i][j];
1082	RGBX8_MUL(x,y,z);
1083	Z[i][j] = z;
1084	}
1085	}
1086	}
1087	/* --------------- */
1088	/* --- MulFrac --- */
1089	/* --------------- */
1090
1091	// Y=(a*X)/b
1092
1093	/* -------------------------------------------------------------------------------------------------------------- */
1094	IMAGE_EXPORT(void) mulfrac_si8matrix(sint8 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, sint8 Y)
1095	/* -------------------------------------------------------------------------------------------------------------- */
1096	{
1097	int i, j;
1098	int32 x, y;
1099
1100	for(i=nrl; i<=nrh; i++) {
1101	for(j=ncl; j<=nch; j++) {
1102	x = X[i][j];
1103	y = (a * x) / b;
1104	Y[i][j] = (sint8) y;
1105	}
1106	}
1107	}
1108	/* -------------------------------------------------------------------------------------------------------------- */
1109	IMAGE_EXPORT(void) mulfrac_ui8matrix(uint8 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, uint8 Y)
1110	/* -------------------------------------------------------------------------------------------------------------- */
1111	{
1112	int i, j;
1113	int32 x, y;
1114
1115	for(i=nrl; i<=nrh; i++) {
1116	for(j=ncl; j<=nch; j++) {
1117	x = X[i][j];
1118	y = (a * x) / b;
1119	Y[i][j] = (uint8) y;
1120	}
1121	}
1122	}
1123	/* ----------------------------------------------------------------------------------------------------------------- */
1124	IMAGE_EXPORT(void) mulfrac_si16matrix(sint16 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, sint16 Y)
1125	/* ----------------------------------------------------------------------------------------------------------------- */
1126	{
1127	int i, j;
1128	int32 x, y;
1129
1130	for(i=nrl; i<=nrh; i++) {
1131	for(j=ncl; j<=nch; j++) {
1132	x = X[i][j];
1133	y = (a * x) / b;
1134	Y[i][j] = (sint16) y;
1135	}
1136	}
1137	}
1138	/* ----------------------------------------------------------------------------------------------------------------- */
1139	IMAGE_EXPORT(void) mulfrac_ui16matrix(uint16 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, uint16 Y)
1140	/* ----------------------------------------------------------------------------------------------------------------- */
1141	{
1142	int i, j;
1143	int32 x, y;
1144
1145	for(i=nrl; i<=nrh; i++) {
1146	for(j=ncl; j<=nch; j++) {
1147	x = X[i][j];
1148	y = (a * x) / b;
1149	Y[i][j] = (uint16) y;
1150	}
1151	}
1152	}
1153	/* ------------------------------------------------------------------------------------------------------------------ */
1154	IMAGE_EXPORT(void) mulfrac_si32matrix(sint32 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, sint32 Y)
1155	/* ------------------------------------------------------------------------------------------------------------------ */
1156	{
1157	int i, j;
1158	int32 x, y;
1159
1160	for(i=nrl; i<=nrh; i++) {
1161	for(j=ncl; j<=nch; j++) {
1162	x = X[i][j];
1163	y = (a * x) / b;
1164	Y[i][j] = (sint16) y;
1165	}
1166	}
1167	}
1168	/* ------------------------------------------------------------------------------------------------------------------ */
1169	IMAGE_EXPORT(void) mulfrac_ui32matrix(uint32 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, uint32 Y)
1170	/* ------------------------------------------------------------------------------------------------------------------ */
1171	{
1172	int i, j;
1173	int32 x, y;
1174
1175	for(i=nrl; i<=nrh; i++) {
1176	for(j=ncl; j<=nch; j++) {
1177	x = X[i][j];
1178	y = (a * x) / b;
1179	Y[i][j] = (uint16) y;
1180	}
1181	}
1182	}
1183	/* ----------------------------------------------------------------------------------------------------------------- */
1184	IMAGE_EXPORT(void) mulfrac_si64matrix(sint64 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, sint64 Y)
1185	/* ----------------------------------------------------------------------------------------------------------------- */
1186	{
1187	int i, j;
1188	sint64 x, y;
1189
1190	for(i=nrl; i<=nrh; i++) {
1191	for(j=ncl; j<=nch; j++) {
1192	x = X[i][j];
1193	y = (a * x) / b;
1194	Y[i][j] = (sint64) y;
1195	}
1196	}
1197	}
1198	/* ----------------------------------------------------------------------------------------------------------------- */
1199	IMAGE_EXPORT(void) mulfrac_ui64matrix(uint64 X, long nrl, long nrh, long ncl, long nch, int32 a, int32 b, uint64 Y)
1200	/* ----------------------------------------------------------------------------------------------------------------- */
1201	{
1202	int i, j;
1203	uint64 x, y;
1204
1205	for(i=nrl; i<=nrh; i++) {
1206	for(j=ncl; j<=nch; j++) {
1207	x = X[i][j];
1208	y = (a * x) / b;
1209	Y[i][j] = (uint64) y;
1210	}
1211	}
1212	}
1213	/* ------------------------------------------------------------------------------------------------------------ */
1214	IMAGE_EXPORT(void) mulfrac_rgb8matrix(rgb8 X, long nrl,long nrh, long ncl, long nch, rgb32 a, rgb32 b, rgb8 Y)
1215	/* ------------------------------------------------------------------------------------------------------------ */
1216	{
1217	int i, j;
1218	rgb32 y32;
1219	rgb8 x8, y8;
1220
1221
1222	for(i=nrl; i<=nrh; i++) {
1223	for(j=ncl; j<=nch; j++) {
1224	x8 = X[i][j];
1225	RGB8_MULFRAC(x8,a,b,y32);
1226	RGB32CAST8(y32,y8);
1227	Y[i][j] = y8;
1228	}
1229	}
1230	}
1231	/* ----------------------------------------------------------------------------------------------------------------- */
1232	IMAGE_EXPORT(void) mulfrac_rgb8xmatrix(rgbx8 X, long nrl,long nrh, long ncl, long nch, rgbx32 a, rgbx32 b, rgbx8 Y)
1233	/* ----------------------------------------------------------------------------------------------------------------- */
1234	{
1235	int i, j;
1236	rgbx32 y32;
1237	rgbx8 x8, y8;
1238
1239	for(i=nrl; i<=nrh; i++) {
1240	for(j=ncl; j<=nch; j++) {
1241	x8 = X[i][j];
1242	RGBX8_MULFRAC(x8,a,b,y32);
1243	RGBX32CAST8(y32,y8);
1244	Y[i][j] = y8;
1245	}
1246	}
1247	}
1248
1249	/* ---------------- */
1250	/* --- MulShift --- */
1251	/* ---------------- */
1252
1253	// m3 = (a*m1)>>s
1254
1255	/* -------------------------------------------------------------------------------------------------------------- */
1256	IMAGE_EXPORT(void) mulshift_si8matrix(sint8 X, long nrl, long nrh,long ncl, long nch, int32 a, int32 s, sint8 Y)
1257	/* -------------------------------------------------------------------------------------------------------------- */
1258	{
1259	int i, j;
1260	int32 x, y;
1261
1262	for(i=nrl; i<=nrh; i++) {
1263	for(j=ncl; j<=nch; j++) {
1264	x = X[i][j];
1265	y = (a * x) >> s;
1266	Y[i][j] = (sint8) y;
1267	}
1268	}
1269	}
1270	/* --------------------------------------------------------------------------------------------------------------- */
1271	IMAGE_EXPORT(void) mulshift_ui8matrix(uint8 X, long nrl,long nrh,long ncl, long nch, int32 a, int32 s, uint8 Y)
1272	/* --------------------------------------------------------------------------------------------------------------- */
1273	{
1274	int i, j;
1275	int32 x, y;
1276
1277	for(i=nrl; i<=nrh; i++) {
1278	for(j=ncl; j<=nch; j++) {
1279	x = X[i][j];
1280	y = (a * x) >> s;
1281	Y[i][j] = (uint8) y;
1282	}
1283	}
1284	}
1285	/* ----------------------------------------------------------------------------------------------------------------- */
1286	IMAGE_EXPORT(void) mulshift_si16matrix(sint16 X, long nrl, long nrh,long ncl, long nch, int32 a, int32 s, sint16 Y)
1287	/* ----------------------------------------------------------------------------------------------------------------- */
1288	{
1289	int i, j;
1290	int32 x, y;
1291
1292	for(i=nrl; i<=nrh; i++) {
1293	for(j=ncl; j<=nch; j++) {
1294	x = X[i][j];
1295	y = (a * x) >> s;
1296	Y[i][j] = (sint16) y;
1297	}
1298	}
1299	}
1300	/* ------------------------------------------------------------------------------------------------------------------ */
1301	IMAGE_EXPORT(void) mulshift_ui16matrix(uint16 X, long nrl,long nrh,long ncl, long nch, int32 a, int32 s, uint16 Y)
1302	/* ------------------------------------------------------------------------------------------------------------------ */
1303	{
1304	int i, j;
1305	int32 x, y;
1306
1307	for(i=nrl; i<=nrh; i++) {
1308	for(j=ncl; j<=nch; j++) {
1309	x = X[i][j];
1310	y = (a * x) >> s;
1311	Y[i][j] = (uint16) y;
1312	}
1313	}
1314	}
1315	/* ----------------------------------------------------------------------------------------------------------------- */
1316	IMAGE_EXPORT(void) mulshift_si32matrix(sint32 X, long nrl, long nrh,long ncl, long nch, int32 a, int32 s, sint32 Y)
1317	/* ----------------------------------------------------------------------------------------------------------------- */
1318	{
1319	int i, j;
1320	int32 x, y;
1321
1322	for(i=nrl; i<=nrh; i++) {
1323	for(j=ncl; j<=nch; j++) {
1324	x = X[i][j];
1325	y = (a * x) >> s;
1326	Y[i][j] = (sint32) y;
1327	}
1328	}
1329	}
1330	/* ------------------------------------------------------------------------------------------------------------------ */
1331	IMAGE_EXPORT(void) mulshift_ui32matrix(uint32 X, long nrl,long nrh,long ncl, long nch, int32 a, int32 s, uint32 Y)
1332	/* ------------------------------------------------------------------------------------------------------------------ */
1333	{
1334	int i, j;
1335	int32 x, y;
1336
1337	for(i=nrl; i<=nrh; i++) {
1338	for(j=ncl; j<=nch; j++) {
1339	x = X[i][j];
1340	y = (a * x) >> s;
1341	Y[i][j] = (uint32) y;
1342	}
1343	}
1344	}
1345	/* ---------------------------------------------------------------------------------------------------------------- */
1346	IMAGE_EXPORT(void) mulshift_rgb8matrix(rgb8 X, long nrl,long nrh,long ncl, long nch, rgb32 a, rgb32 s, rgb8 Y)
1347	/* ---------------------------------------------------------------------------------------------------------------- */
1348	{
1349	int i, j;
1350	rgb32 y32;
1351	rgb8 x8, y8;
1352
1353	for(i=nrl; i<=nrh; i++) {
1354	for(j=ncl; j<=nch; j++) {
1355	x8 = X[i][j];
1356	RGB8_MULSHIFT(x8,a,s,y32);
1357	RGB32CAST8(y32,y8);
1358	Y[i][j] = y8;
1359	}
1360	}
1361	}
1362	/* ----------------------------------------------------------------------------------------------------------------- */
1363	IMAGE_EXPORT(void) mulshift_rgbx8matrix(rgbx8 X, long nrl,long nrh,long ncl, long nch, rgbx32 a, rgbx32 s, rgbx8 Y)
1364	/* ----------------------------------------------------------------------------------------------------------------- */
1365	{
1366	int i, j;
1367	rgbx32 y32;
1368	rgbx8 x8, y8;
1369
1370	for(i=nrl; i<=nrh; i++) {
1371	for(j=ncl; j<=nch; j++) {
1372	x8 = X[i][j];
1373	RGBX8_MULSHIFT(x8,a,s,y32);
1374	RGBX32CAST8(y32,y8);
1375	Y[i][j] = y8;
1376	}
1377	}
1378	}

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