1 /*
2 * Copyright (c) 2003, 2013, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation. Oracle designates this
8 * particular file as subject to the "Classpath" exception as provided
9 * by Oracle in the LICENSE file that accompanied this code.
10 *
11 * This code is distributed in the hope that it will be useful, but WITHOUT
12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 * version 2 for more details (a copy is included in the LICENSE file that
15 * accompanied this code).
16 *
17 * You should have received a copy of the GNU General Public License version
18 * 2 along with this work; if not, write to the Free Software Foundation,
19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20 *
21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22 * or visit www.oracle.com if you need additional information or have any
146 /***************************************************************/
147 #define DEF_VARS(type) \
148 type *adr_src, *sl, *sp = NULL; \
149 type *adr_dst, *dl, *dp = NULL; \
150 FTYPE *pbuff = buff; \
151 mlib_s32 wid, hgt, sll, dll; \
152 mlib_s32 nchannel, chan1; \
153 mlib_s32 i, j, c
154
155 /***************************************************************/
156 #define GET_SRC_DST_PARAMETERS(type) \
157 hgt = mlib_ImageGetHeight(src); \
158 wid = mlib_ImageGetWidth(src); \
159 nchannel = mlib_ImageGetChannels(src); \
160 sll = mlib_ImageGetStride(src) / sizeof(type); \
161 dll = mlib_ImageGetStride(dst) / sizeof(type); \
162 adr_src = (type *)mlib_ImageGetData(src); \
163 adr_dst = (type *)mlib_ImageGetData(dst)
164
165 /***************************************************************/
166 #ifndef __sparc
167
168 #if IMG_TYPE == 1
169
170 /* Test for the presence of any "1" bit in bits
171 8 to 31 of val. If present, then val is either
172 negative or >255. If over/underflows of 8 bits
173 are uncommon, then this technique can be a win,
174 since only a single test, rather than two, is
175 necessary to determine if clamping is needed.
176 On the other hand, if over/underflows are common,
177 it adds an extra test.
178 */
179 #define CLAMP_STORE(dst, val) \
180 if (val & 0xffffff00) { \
181 if (val < MLIB_U8_MIN) \
182 dst = MLIB_U8_MIN; \
183 else \
184 dst = MLIB_U8_MAX; \
185 } else { \
186 dst = (mlib_u8)val; \
187 }
190
191 #define CLAMP_STORE(dst, val) \
192 if (val >= MLIB_S16_MAX) \
193 dst = MLIB_S16_MAX; \
194 else if (val <= MLIB_S16_MIN) \
195 dst = MLIB_S16_MIN; \
196 else \
197 dst = (mlib_s16)val
198
199 #elif IMG_TYPE == 3
200
201 #define CLAMP_STORE(dst, val) \
202 if (val >= MLIB_U16_MAX) \
203 dst = MLIB_U16_MAX; \
204 else if (val <= MLIB_U16_MIN) \
205 dst = MLIB_U16_MIN; \
206 else \
207 dst = (mlib_u16)val
208
209 #endif /* IMG_TYPE == 1 */
210 #endif /* __sparc */
211
212 /***************************************************************/
213 #define MAX_KER 7
214 #define MAX_N 15
215
216 static mlib_status mlib_ImageConv1xN(mlib_image *dst,
217 const mlib_image *src,
218 const mlib_d64 *k,
219 mlib_s32 n,
220 mlib_s32 dn,
221 mlib_s32 cmask)
222 {
223 FTYPE buff[BUFF_SIZE];
224 mlib_s32 off, kh;
225 mlib_s32 d0, d1;
226 const FTYPE *pk;
227 FTYPE k0, k1, k2, k3;
228 FTYPE p0, p1, p2, p3, p4;
229 DEF_VARS(DTYPE);
230 DTYPE *sl_c, *dl_c, *sl0;
241 if (max_hsize > BUFF_SIZE) {
242 pbuff = mlib_malloc(sizeof(FTYPE)*max_hsize);
243 }
244
245 chan1 = nchannel;
246
247 sl_c = adr_src;
248 dl_c = adr_dst;
249
250 for (l = 0; l < hgt; l += hsize) {
251 hsize = hgt - l;
252
253 if (hsize > max_hsize) hsize = max_hsize;
254
255 for (c = 0; c < nchannel; c++) {
256 if (!(cmask & (1 << (chan1 - 1 - c)))) continue;
257
258 sl = sl_c + c;
259 dl = dl_c + c;
260
261 #ifdef __SUNPRO_C
262 #pragma pipeloop(0)
263 #endif /* __SUNPRO_C */
264 for (j = 0; j < hsize; j++) pbuff[j] = 0.0;
265
266 for (i = 0; i < wid; i++) {
267 sl0 = sl;
268
269 for (off = 0; off < (n - 4); off += 4) {
270 pk = k + off;
271 sp = sl0;
272
273 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
274 p2 = sp[0]; p3 = sp[sll]; p4 = sp[2*sll];
275 sp += 3*sll;
276
277 #ifdef __SUNPRO_C
278 #pragma pipeloop(0)
279 #endif /* __SUNPRO_C */
280 for (j = 0; j < hsize; j += 2) {
281 p0 = p2; p1 = p3; p2 = p4;
282 p3 = sp[0];
283 p4 = sp[sll];
284
285 pbuff[j ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
286 pbuff[j + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
287
288 sp += 2*sll;
289 }
290
291 sl0 += 4*sll;
292 }
293
294 pk = k + off;
295 sp = sl0;
296
297 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
298 p2 = sp[0]; p3 = sp[sll]; p4 = sp[2*sll];
299
300 dp = dl;
301 kh = n - off;
302
303 if (kh == 4) {
304 sp += 3*sll;
305
306 #ifdef __SUNPRO_C
307 #pragma pipeloop(0)
308 #endif /* __SUNPRO_C */
309 for (j = 0; j <= (hsize - 2); j += 2) {
310 p0 = p2; p1 = p3; p2 = p4;
311 p3 = sp[0];
312 p4 = sp[sll];
313
314 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + pbuff[j]);
315 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + pbuff[j + 1]);
316
317 dp[0 ] = FROM_S32(d0);
318 dp[dll] = FROM_S32(d1);
319
320 pbuff[j] = 0;
321 pbuff[j + 1] = 0;
322
323 sp += 2*sll;
324 dp += 2*dll;
325 }
326
327 if (j < hsize) {
328 p0 = p2; p1 = p3; p2 = p4;
329 p3 = sp[0];
330
331 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + pbuff[j]);
332
333 pbuff[j] = 0;
334
335 dp[0] = FROM_S32(d0);
336 }
337
338 } else if (kh == 3) {
339 sp += 2*sll;
340
341 #ifdef __SUNPRO_C
342 #pragma pipeloop(0)
343 #endif /* __SUNPRO_C */
344 for (j = 0; j <= (hsize - 2); j += 2) {
345 p0 = p2; p1 = p3;
346 p2 = sp[0];
347 p3 = sp[sll];
348
349 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + pbuff[j]);
350 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + pbuff[j + 1]);
351
352 dp[0 ] = FROM_S32(d0);
353 dp[dll] = FROM_S32(d1);
354
355 pbuff[j] = 0;
356 pbuff[j + 1] = 0;
357
358 sp += 2*sll;
359 dp += 2*dll;
360 }
361
362 if (j < hsize) {
363 p0 = p2; p1 = p3;
364 p2 = sp[0];
365
366 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + pbuff[j]);
367
368 pbuff[j] = 0;
369
370 dp[0] = FROM_S32(d0);
371 }
372
373 } else if (kh == 2) {
374 sp += sll;
375
376 #ifdef __SUNPRO_C
377 #pragma pipeloop(0)
378 #endif /* __SUNPRO_C */
379 for (j = 0; j <= (hsize - 2); j += 2) {
380 p0 = p2;
381 p1 = sp[0];
382 p2 = sp[sll];
383
384 d0 = D2I(p0*k0 + p1*k1 + pbuff[j]);
385 d1 = D2I(p1*k0 + p2*k1 + pbuff[j + 1]);
386
387 dp[0 ] = FROM_S32(d0);
388 dp[dll] = FROM_S32(d1);
389
390 pbuff[j] = 0;
391 pbuff[j + 1] = 0;
392
393 sp += 2*sll;
394 dp += 2*dll;
395 }
396
397 if (j < hsize) {
398 p0 = p2;
399 p1 = sp[0];
400
401 d0 = D2I(p0*k0 + p1*k1 + pbuff[j]);
402
403 pbuff[j] = 0;
404
405 dp[0] = FROM_S32(d0);
406 }
407
408 } else /* if (kh == 1) */ {
409 #ifdef __SUNPRO_C
410 #pragma pipeloop(0)
411 #endif /* __SUNPRO_C */
412 for (j = 0; j < hsize; j++) {
413 p0 = sp[0];
414
415 d0 = D2I(p0*k0 + pbuff[j]);
416
417 dp[0] = FROM_S32(d0);
418
419 pbuff[j] = 0;
420
421 sp += sll;
422 dp += dll;
423 }
424 }
425
426 sl += chan1;
427 dl += chan1;
428 }
429 }
430
431 sl_c += max_hsize*sll;
504 buffd = buffs[n] + wid;
505 buffo = (mlib_s32*)(buffd + wid);
506 buffi = buffo + (wid &~ 1);
507
508 chan1 = nchannel;
509 chan2 = chan1 + chan1;
510
511 wid -= (m - 1);
512 hgt -= (n - 1);
513 adr_dst += dn*dll + dm*nchannel;
514
515 for (c = 0; c < nchannel; c++) {
516 if (!(cmask & (1 << (chan1 - 1 - c)))) continue;
517
518 sl = adr_src + c;
519 dl = adr_dst + c;
520
521 for (l = 0; l < n; l++) {
522 FTYPE *buff = buffs[l];
523
524 #ifdef __SUNPRO_C
525 #pragma pipeloop(0)
526 #endif /* __SUNPRO_C */
527 for (i = 0; i < wid + (m - 1); i++) {
528 buff[i] = (FTYPE)sl[i*chan1];
529 }
530
531 sl += sll;
532 }
533
534 buff_ind = 0;
535
536 #ifdef __SUNPRO_C
537 #pragma pipeloop(0)
538 #endif /* __SUNPRO_C */
539 for (i = 0; i < wid; i++) buffd[i] = 0.0;
540
541 for (j = 0; j < hgt; j++) {
542 FTYPE **buffc = buffs + buff_ind;
543 FTYPE *buffn = buffc[n];
544 FTYPE *pk = k;
545
546 for (l = 0; l < n; l++) {
547 FTYPE *buff_l = buffc[l];
548
549 for (off = 0; off < m;) {
550 FTYPE *buff = buff_l + off;
551
552 kw = m - off;
553
554 if (kw > 2*MAX_KER) kw = MAX_KER; else
555 if (kw > MAX_KER) kw = kw/2;
556 off += kw;
557
558 sp = sl;
559 dp = dl;
560
561 p2 = buff[0]; p3 = buff[1]; p4 = buff[2];
562 p5 = buff[3]; p6 = buff[4]; p7 = buff[5];
563
564 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
565 k4 = pk[4]; k5 = pk[5]; k6 = pk[6];
566 pk += kw;
567
568 if (kw == 7) {
569
570 if (l < (n - 1) || off < m) {
571 #ifdef __SUNPRO_C
572 #pragma pipeloop(0)
573 #endif /* __SUNPRO_C */
574 for (i = 0; i <= (wid - 2); i += 2) {
575 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
576
577 p6 = buff[i + 6]; p7 = buff[i + 7];
578
579 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6;
580 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6;
581 }
582
583 } else {
584 #ifdef __SUNPRO_C
585 #pragma pipeloop(0)
586 #endif /* __SUNPRO_C */
587 for (i = 0; i <= (wid - 2); i += 2) {
588 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
589
590 p6 = buff[i + 6]; p7 = buff[i + 7];
591
592 LOAD_BUFF(buffi);
593
594 dd.d64 = *(FTYPE *)(buffi + i);
595 buffn[i ] = (FTYPE)dd.i32s.i0;
596 buffn[i + 1] = (FTYPE)dd.i32s.i1;
597
598 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6 + buffd[i ]);
599 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6 + buffd[i + 1]);
600
601 dp[0 ] = FROM_S32(d0);
602 dp[chan1] = FROM_S32(d1);
603
604 buffd[i ] = 0.0;
605 buffd[i + 1] = 0.0;
606
607 sp += chan2;
608 dp += chan2;
609 }
610 }
611
612 } else if (kw == 6) {
613
614 if (l < (n - 1) || off < m) {
615 #ifdef __SUNPRO_C
616 #pragma pipeloop(0)
617 #endif /* __SUNPRO_C */
618 for (i = 0; i <= (wid - 2); i += 2) {
619 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
620
621 p5 = buff[i + 5]; p6 = buff[i + 6];
622
623 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5;
624 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5;
625 }
626
627 } else {
628 #ifdef __SUNPRO_C
629 #pragma pipeloop(0)
630 #endif /* __SUNPRO_C */
631 for (i = 0; i <= (wid - 2); i += 2) {
632 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
633
634 p5 = buff[i + 5]; p6 = buff[i + 6];
635
636 buffn[i ] = (FTYPE)sp[0];
637 buffn[i + 1] = (FTYPE)sp[chan1];
638
639 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + buffd[i ]);
640 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + buffd[i + 1]);
641
642 dp[0 ] = FROM_S32(d0);
643 dp[chan1] = FROM_S32(d1);
644
645 buffd[i ] = 0.0;
646 buffd[i + 1] = 0.0;
647
648 sp += chan2;
649 dp += chan2;
650 }
651 }
652
653 } else if (kw == 5) {
654
655 if (l < (n - 1) || off < m) {
656 #ifdef __SUNPRO_C
657 #pragma pipeloop(0)
658 #endif /* __SUNPRO_C */
659 for (i = 0; i <= (wid - 2); i += 2) {
660 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
661
662 p4 = buff[i + 4]; p5 = buff[i + 5];
663
664 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4;
665 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4;
666 }
667
668 } else {
669 #ifdef __SUNPRO_C
670 #pragma pipeloop(0)
671 #endif /* __SUNPRO_C */
672 for (i = 0; i <= (wid - 2); i += 2) {
673 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
674
675 p4 = buff[i + 4]; p5 = buff[i + 5];
676
677 buffn[i ] = (FTYPE)sp[0];
678 buffn[i + 1] = (FTYPE)sp[chan1];
679
680 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + buffd[i ]);
681 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + buffd[i + 1]);
682
683 dp[0 ] = FROM_S32(d0);
684 dp[chan1] = FROM_S32(d1);
685
686 buffd[i ] = 0.0;
687 buffd[i + 1] = 0.0;
688
689 sp += chan2;
690 dp += chan2;
691 }
692 }
693
694 } else if (kw == 4) {
695
696 if (l < (n - 1) || off < m) {
697 #ifdef __SUNPRO_C
698 #pragma pipeloop(0)
699 #endif /* __SUNPRO_C */
700 for (i = 0; i <= (wid - 2); i += 2) {
701 p0 = p2; p1 = p3; p2 = p4;
702
703 p3 = buff[i + 3]; p4 = buff[i + 4];
704
705 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
706 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
707 }
708
709 } else {
710 #ifdef __SUNPRO_C
711 #pragma pipeloop(0)
712 #endif /* __SUNPRO_C */
713 for (i = 0; i <= (wid - 2); i += 2) {
714 p0 = p2; p1 = p3; p2 = p4;
715
716 p3 = buff[i + 3]; p4 = buff[i + 4];
717
718 buffn[i ] = (FTYPE)sp[0];
719 buffn[i + 1] = (FTYPE)sp[chan1];
720
721 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + buffd[i ]);
722 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + buffd[i + 1]);
723
724 dp[0 ] = FROM_S32(d0);
725 dp[chan1] = FROM_S32(d1);
726
727 buffd[i ] = 0.0;
728 buffd[i + 1] = 0.0;
729
730 sp += chan2;
731 dp += chan2;
732 }
733 }
734
735 } else if (kw == 3) {
736
737 if (l < (n - 1) || off < m) {
738 #ifdef __SUNPRO_C
739 #pragma pipeloop(0)
740 #endif /* __SUNPRO_C */
741 for (i = 0; i <= (wid - 2); i += 2) {
742 p0 = p2; p1 = p3;
743
744 p2 = buff[i + 2]; p3 = buff[i + 3];
745
746 buffd[i ] += p0*k0 + p1*k1 + p2*k2;
747 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2;
748 }
749
750 } else {
751 #ifdef __SUNPRO_C
752 #pragma pipeloop(0)
753 #endif /* __SUNPRO_C */
754 for (i = 0; i <= (wid - 2); i += 2) {
755 p0 = p2; p1 = p3;
756
757 p2 = buff[i + 2]; p3 = buff[i + 3];
758
759 buffn[i ] = (FTYPE)sp[0];
760 buffn[i + 1] = (FTYPE)sp[chan1];
761
762 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + buffd[i ]);
763 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + buffd[i + 1]);
764
765 dp[0 ] = FROM_S32(d0);
766 dp[chan1] = FROM_S32(d1);
767
768 buffd[i ] = 0.0;
769 buffd[i + 1] = 0.0;
770
771 sp += chan2;
772 dp += chan2;
773 }
774 }
775
776 } else /*if (kw == 2)*/ {
777
778 if (l < (n - 1) || off < m) {
779 #ifdef __SUNPRO_C
780 #pragma pipeloop(0)
781 #endif /* __SUNPRO_C */
782 for (i = 0; i <= (wid - 2); i += 2) {
783 p0 = p2;
784
785 p1 = buff[i + 1]; p2 = buff[i + 2];
786
787 buffd[i ] += p0*k0 + p1*k1;
788 buffd[i + 1] += p1*k0 + p2*k1;
789 }
790
791 } else {
792 #ifdef __SUNPRO_C
793 #pragma pipeloop(0)
794 #endif /* __SUNPRO_C */
795 for (i = 0; i <= (wid - 2); i += 2) {
796 p0 = p2;
797
798 p1 = buff[i + 1]; p2 = buff[i + 2];
799
800 buffn[i ] = (FTYPE)sp[0];
801 buffn[i + 1] = (FTYPE)sp[chan1];
802
803 d0 = D2I(p0*k0 + p1*k1 + buffd[i ]);
804 d1 = D2I(p1*k0 + p2*k1 + buffd[i + 1]);
805
806 dp[0 ] = FROM_S32(d0);
807 dp[chan1] = FROM_S32(d1);
808
809 buffd[i ] = 0.0;
810 buffd[i + 1] = 0.0;
811
812 sp += chan2;
813 dp += chan2;
814 }
836 sp += chan1;
837 dp += chan1;
838 }
839
840 for (l = 0; l < (m - 1); l++) buffn[wid + l] = sp[l*chan1];
841
842 /* next line */
843 sl += sll;
844 dl += dll;
845
846 buff_ind++;
847
848 if (buff_ind >= n + 1) buff_ind = 0;
849 }
850 }
851
852 FREE_AND_RETURN_STATUS;
853 }
854
855 /***************************************************************/
856 #ifndef __sparc /* for x86, using integer multiplies is faster */
857
858 #define STORE_RES(res, x) \
859 x >>= shift2; \
860 CLAMP_STORE(res, x)
861
862 mlib_status CONV_FUNC_I(MxN)(mlib_image *dst,
863 const mlib_image *src,
864 const mlib_s32 *kernel,
865 mlib_s32 m,
866 mlib_s32 n,
867 mlib_s32 dm,
868 mlib_s32 dn,
869 mlib_s32 scale,
870 mlib_s32 cmask)
871 {
872 mlib_s32 buff[BUFF_SIZE], *buffd = buff;
873 mlib_s32 l, off, kw;
874 mlib_s32 d0, d1, shift1, shift2;
875 mlib_s32 k0, k1, k2, k3, k4, k5, k6;
876 mlib_s32 p0, p1, p2, p3, p4, p5, p6, p7;
905
906 if (m*n > MAX_N*MAX_N) {
907 k = mlib_malloc(sizeof(mlib_s32)*(m*n));
908
909 if (k == NULL) {
910 if (buffd != buff) mlib_free(buffd);
911 return MLIB_FAILURE;
912 }
913 }
914
915 for (i = 0; i < m*n; i++) {
916 k[i] = kernel[i] >> shift1;
917 }
918
919 for (c = 0; c < nchannel; c++) {
920 if (!(cmask & (1 << (nchannel - 1 - c)))) continue;
921
922 sl = adr_src + c;
923 dl = adr_dst + c;
924
925 #ifdef __SUNPRO_C
926 #pragma pipeloop(0)
927 #endif /* __SUNPRO_C */
928 for (i = 0; i < wid; i++) buffd[i] = 0;
929
930 for (j = 0; j < hgt; j++) {
931 mlib_s32 *pk = k;
932
933 for (l = 0; l < n; l++) {
934 DTYPE *sp0 = sl + l*sll;
935
936 for (off = 0; off < m;) {
937 sp = sp0 + off*chan1;
938 dp = dl;
939
940 kw = m - off;
941
942 if (kw > 2*MAX_KER) kw = MAX_KER; else
943 if (kw > MAX_KER) kw = kw/2;
944 off += kw;
945
946 p2 = sp[0]; p3 = sp[chan1]; p4 = sp[chan2];
947 p5 = sp[chan2 + chan1]; p6 = sp[chan2 + chan2]; p7 = sp[5*chan1];
948
949 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
950 k4 = pk[4]; k5 = pk[5]; k6 = pk[6];
951 pk += kw;
952
953 sp += (kw - 1)*chan1;
954
955 if (kw == 7) {
956
957 if (l < (n - 1) || off < m) {
958 #ifdef __SUNPRO_C
959 #pragma pipeloop(0)
960 #endif /* __SUNPRO_C */
961 for (i = 0; i <= (wid - 2); i += 2) {
962 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
963 p6 = sp[0];
964 p7 = sp[chan1];
965
966 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6;
967 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6;
968
969 sp += chan2;
970 }
971
972 } else {
973 #ifdef __SUNPRO_C
974 #pragma pipeloop(0)
975 #endif /* __SUNPRO_C */
976 for (i = 0; i <= (wid - 2); i += 2) {
977 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
978 p6 = sp[0];
979 p7 = sp[chan1];
980
981 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6 + buffd[i ]);
982 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6 + buffd[i + 1]);
983
984 STORE_RES(dp[0 ], d0);
985 STORE_RES(dp[chan1], d1);
986
987 buffd[i ] = 0;
988 buffd[i + 1] = 0;
989
990 sp += chan2;
991 dp += chan2;
992 }
993 }
994
995 } else if (kw == 6) {
996
997 if (l < (n - 1) || off < m) {
998 #ifdef __SUNPRO_C
999 #pragma pipeloop(0)
1000 #endif /* __SUNPRO_C */
1001 for (i = 0; i <= (wid - 2); i += 2) {
1002 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
1003 p5 = sp[0];
1004 p6 = sp[chan1];
1005
1006 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5;
1007 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5;
1008
1009 sp += chan2;
1010 }
1011
1012 } else {
1013 #ifdef __SUNPRO_C
1014 #pragma pipeloop(0)
1015 #endif /* __SUNPRO_C */
1016 for (i = 0; i <= (wid - 2); i += 2) {
1017 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
1018 p5 = sp[0];
1019 p6 = sp[chan1];
1020
1021 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + buffd[i ]);
1022 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + buffd[i + 1]);
1023
1024 STORE_RES(dp[0 ], d0);
1025 STORE_RES(dp[chan1], d1);
1026
1027 buffd[i ] = 0;
1028 buffd[i + 1] = 0;
1029
1030 sp += chan2;
1031 dp += chan2;
1032 }
1033 }
1034
1035 } else if (kw == 5) {
1036
1037 if (l < (n - 1) || off < m) {
1038 #ifdef __SUNPRO_C
1039 #pragma pipeloop(0)
1040 #endif /* __SUNPRO_C */
1041 for (i = 0; i <= (wid - 2); i += 2) {
1042 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
1043 p4 = sp[0];
1044 p5 = sp[chan1];
1045
1046 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4;
1047 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4;
1048
1049 sp += chan2;
1050 }
1051
1052 } else {
1053 #ifdef __SUNPRO_C
1054 #pragma pipeloop(0)
1055 #endif /* __SUNPRO_C */
1056 for (i = 0; i <= (wid - 2); i += 2) {
1057 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
1058 p4 = sp[0];
1059 p5 = sp[chan1];
1060
1061 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + buffd[i ]);
1062 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + buffd[i + 1]);
1063
1064 STORE_RES(dp[0 ], d0);
1065 STORE_RES(dp[chan1], d1);
1066
1067 buffd[i ] = 0;
1068 buffd[i + 1] = 0;
1069
1070 sp += chan2;
1071 dp += chan2;
1072 }
1073 }
1074
1075 } else if (kw == 4) {
1076
1077 if (l < (n - 1) || off < m) {
1078 #ifdef __SUNPRO_C
1079 #pragma pipeloop(0)
1080 #endif /* __SUNPRO_C */
1081 for (i = 0; i <= (wid - 2); i += 2) {
1082 p0 = p2; p1 = p3; p2 = p4;
1083 p3 = sp[0];
1084 p4 = sp[chan1];
1085
1086 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
1087 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
1088
1089 sp += chan2;
1090 }
1091
1092 } else {
1093 #ifdef __SUNPRO_C
1094 #pragma pipeloop(0)
1095 #endif /* __SUNPRO_C */
1096 for (i = 0; i <= (wid - 2); i += 2) {
1097 p0 = p2; p1 = p3; p2 = p4;
1098 p3 = sp[0];
1099 p4 = sp[chan1];
1100
1101 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + buffd[i ]);
1102 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + buffd[i + 1]);
1103
1104 STORE_RES(dp[0 ], d0);
1105 STORE_RES(dp[chan1], d1);
1106
1107 buffd[i ] = 0;
1108 buffd[i + 1] = 0;
1109
1110 sp += chan2;
1111 dp += chan2;
1112 }
1113 }
1114
1115 } else if (kw == 3) {
1116
1117 if (l < (n - 1) || off < m) {
1118 #ifdef __SUNPRO_C
1119 #pragma pipeloop(0)
1120 #endif /* __SUNPRO_C */
1121 for (i = 0; i <= (wid - 2); i += 2) {
1122 p0 = p2; p1 = p3;
1123 p2 = sp[0];
1124 p3 = sp[chan1];
1125
1126 buffd[i ] += p0*k0 + p1*k1 + p2*k2;
1127 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2;
1128
1129 sp += chan2;
1130 }
1131
1132 } else {
1133 #ifdef __SUNPRO_C
1134 #pragma pipeloop(0)
1135 #endif /* __SUNPRO_C */
1136 for (i = 0; i <= (wid - 2); i += 2) {
1137 p0 = p2; p1 = p3;
1138 p2 = sp[0];
1139 p3 = sp[chan1];
1140
1141 d0 = (p0*k0 + p1*k1 + p2*k2 + buffd[i ]);
1142 d1 = (p1*k0 + p2*k1 + p3*k2 + buffd[i + 1]);
1143
1144 STORE_RES(dp[0 ], d0);
1145 STORE_RES(dp[chan1], d1);
1146
1147 buffd[i ] = 0;
1148 buffd[i + 1] = 0;
1149
1150 sp += chan2;
1151 dp += chan2;
1152 }
1153 }
1154
1155 } else if (kw == 2) {
1156
1157 if (l < (n - 1) || off < m) {
1158 #ifdef __SUNPRO_C
1159 #pragma pipeloop(0)
1160 #endif /* __SUNPRO_C */
1161 for (i = 0; i <= (wid - 2); i += 2) {
1162 p0 = p2;
1163 p1 = sp[0];
1164 p2 = sp[chan1];
1165
1166 buffd[i ] += p0*k0 + p1*k1;
1167 buffd[i + 1] += p1*k0 + p2*k1;
1168
1169 sp += chan2;
1170 }
1171
1172 } else {
1173 #ifdef __SUNPRO_C
1174 #pragma pipeloop(0)
1175 #endif /* __SUNPRO_C */
1176 for (i = 0; i <= (wid - 2); i += 2) {
1177 p0 = p2;
1178 p1 = sp[0];
1179 p2 = sp[chan1];
1180
1181 d0 = (p0*k0 + p1*k1 + buffd[i ]);
1182 d1 = (p1*k0 + p2*k1 + buffd[i + 1]);
1183
1184 STORE_RES(dp[0 ], d0);
1185 STORE_RES(dp[chan1], d1);
1186
1187 buffd[i ] = 0;
1188 buffd[i + 1] = 0;
1189
1190 sp += chan2;
1191 dp += chan2;
1192 }
1193 }
1194
1195 } else /*if (kw == 1)*/ {
1196
1197 if (l < (n - 1) || off < m) {
1198 #ifdef __SUNPRO_C
1199 #pragma pipeloop(0)
1200 #endif /* __SUNPRO_C */
1201 for (i = 0; i <= (wid - 2); i += 2) {
1202 p0 = sp[0];
1203 p1 = sp[chan1];
1204
1205 buffd[i ] += p0*k0;
1206 buffd[i + 1] += p1*k0;
1207
1208 sp += chan2;
1209 }
1210
1211 } else {
1212 #ifdef __SUNPRO_C
1213 #pragma pipeloop(0)
1214 #endif /* __SUNPRO_C */
1215 for (i = 0; i <= (wid - 2); i += 2) {
1216 p0 = sp[0];
1217 p1 = sp[chan1];
1218
1219 d0 = (p0*k0 + buffd[i ]);
1220 d1 = (p1*k0 + buffd[i + 1]);
1221
1222 STORE_RES(dp[0 ], d0);
1223 STORE_RES(dp[chan1], d1);
1224
1225 buffd[i ] = 0;
1226 buffd[i + 1] = 0;
1227
1228 sp += chan2;
1229 dp += chan2;
1230 }
1231 }
1232 }
1233 }
1234 }
1247 pk ++;
1248 }
1249 }
1250
1251 STORE_RES(dp[0], s);
1252
1253 sp += chan1;
1254 dp += chan1;
1255 }
1256
1257 sl += sll;
1258 dl += dll;
1259 }
1260 }
1261
1262 if (buffd != buff) mlib_free(buffd);
1263 if (k != k_locl) mlib_free(k);
1264
1265 return MLIB_SUCCESS;
1266 }
1267
1268 /***************************************************************/
1269 #endif /* __sparc ( for x86, using integer multiplies is faster ) */
1270
1271 /***************************************************************/
|
1 /*
2 * Copyright (c) 2003, 2020, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation. Oracle designates this
8 * particular file as subject to the "Classpath" exception as provided
9 * by Oracle in the LICENSE file that accompanied this code.
10 *
11 * This code is distributed in the hope that it will be useful, but WITHOUT
12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 * version 2 for more details (a copy is included in the LICENSE file that
15 * accompanied this code).
16 *
17 * You should have received a copy of the GNU General Public License version
18 * 2 along with this work; if not, write to the Free Software Foundation,
19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20 *
21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22 * or visit www.oracle.com if you need additional information or have any
146 /***************************************************************/
147 #define DEF_VARS(type) \
148 type *adr_src, *sl, *sp = NULL; \
149 type *adr_dst, *dl, *dp = NULL; \
150 FTYPE *pbuff = buff; \
151 mlib_s32 wid, hgt, sll, dll; \
152 mlib_s32 nchannel, chan1; \
153 mlib_s32 i, j, c
154
155 /***************************************************************/
156 #define GET_SRC_DST_PARAMETERS(type) \
157 hgt = mlib_ImageGetHeight(src); \
158 wid = mlib_ImageGetWidth(src); \
159 nchannel = mlib_ImageGetChannels(src); \
160 sll = mlib_ImageGetStride(src) / sizeof(type); \
161 dll = mlib_ImageGetStride(dst) / sizeof(type); \
162 adr_src = (type *)mlib_ImageGetData(src); \
163 adr_dst = (type *)mlib_ImageGetData(dst)
164
165 /***************************************************************/
166 #if IMG_TYPE == 1
167
168 /* Test for the presence of any "1" bit in bits
169 8 to 31 of val. If present, then val is either
170 negative or >255. If over/underflows of 8 bits
171 are uncommon, then this technique can be a win,
172 since only a single test, rather than two, is
173 necessary to determine if clamping is needed.
174 On the other hand, if over/underflows are common,
175 it adds an extra test.
176 */
177 #define CLAMP_STORE(dst, val) \
178 if (val & 0xffffff00) { \
179 if (val < MLIB_U8_MIN) \
180 dst = MLIB_U8_MIN; \
181 else \
182 dst = MLIB_U8_MAX; \
183 } else { \
184 dst = (mlib_u8)val; \
185 }
188
189 #define CLAMP_STORE(dst, val) \
190 if (val >= MLIB_S16_MAX) \
191 dst = MLIB_S16_MAX; \
192 else if (val <= MLIB_S16_MIN) \
193 dst = MLIB_S16_MIN; \
194 else \
195 dst = (mlib_s16)val
196
197 #elif IMG_TYPE == 3
198
199 #define CLAMP_STORE(dst, val) \
200 if (val >= MLIB_U16_MAX) \
201 dst = MLIB_U16_MAX; \
202 else if (val <= MLIB_U16_MIN) \
203 dst = MLIB_U16_MIN; \
204 else \
205 dst = (mlib_u16)val
206
207 #endif /* IMG_TYPE == 1 */
208
209 /***************************************************************/
210 #define MAX_KER 7
211 #define MAX_N 15
212
213 static mlib_status mlib_ImageConv1xN(mlib_image *dst,
214 const mlib_image *src,
215 const mlib_d64 *k,
216 mlib_s32 n,
217 mlib_s32 dn,
218 mlib_s32 cmask)
219 {
220 FTYPE buff[BUFF_SIZE];
221 mlib_s32 off, kh;
222 mlib_s32 d0, d1;
223 const FTYPE *pk;
224 FTYPE k0, k1, k2, k3;
225 FTYPE p0, p1, p2, p3, p4;
226 DEF_VARS(DTYPE);
227 DTYPE *sl_c, *dl_c, *sl0;
238 if (max_hsize > BUFF_SIZE) {
239 pbuff = mlib_malloc(sizeof(FTYPE)*max_hsize);
240 }
241
242 chan1 = nchannel;
243
244 sl_c = adr_src;
245 dl_c = adr_dst;
246
247 for (l = 0; l < hgt; l += hsize) {
248 hsize = hgt - l;
249
250 if (hsize > max_hsize) hsize = max_hsize;
251
252 for (c = 0; c < nchannel; c++) {
253 if (!(cmask & (1 << (chan1 - 1 - c)))) continue;
254
255 sl = sl_c + c;
256 dl = dl_c + c;
257
258 for (j = 0; j < hsize; j++) pbuff[j] = 0.0;
259
260 for (i = 0; i < wid; i++) {
261 sl0 = sl;
262
263 for (off = 0; off < (n - 4); off += 4) {
264 pk = k + off;
265 sp = sl0;
266
267 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
268 p2 = sp[0]; p3 = sp[sll]; p4 = sp[2*sll];
269 sp += 3*sll;
270
271 for (j = 0; j < hsize; j += 2) {
272 p0 = p2; p1 = p3; p2 = p4;
273 p3 = sp[0];
274 p4 = sp[sll];
275
276 pbuff[j ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
277 pbuff[j + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
278
279 sp += 2*sll;
280 }
281
282 sl0 += 4*sll;
283 }
284
285 pk = k + off;
286 sp = sl0;
287
288 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
289 p2 = sp[0]; p3 = sp[sll]; p4 = sp[2*sll];
290
291 dp = dl;
292 kh = n - off;
293
294 if (kh == 4) {
295 sp += 3*sll;
296
297 for (j = 0; j <= (hsize - 2); j += 2) {
298 p0 = p2; p1 = p3; p2 = p4;
299 p3 = sp[0];
300 p4 = sp[sll];
301
302 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + pbuff[j]);
303 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + pbuff[j + 1]);
304
305 dp[0 ] = FROM_S32(d0);
306 dp[dll] = FROM_S32(d1);
307
308 pbuff[j] = 0;
309 pbuff[j + 1] = 0;
310
311 sp += 2*sll;
312 dp += 2*dll;
313 }
314
315 if (j < hsize) {
316 p0 = p2; p1 = p3; p2 = p4;
317 p3 = sp[0];
318
319 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + pbuff[j]);
320
321 pbuff[j] = 0;
322
323 dp[0] = FROM_S32(d0);
324 }
325
326 } else if (kh == 3) {
327 sp += 2*sll;
328
329 for (j = 0; j <= (hsize - 2); j += 2) {
330 p0 = p2; p1 = p3;
331 p2 = sp[0];
332 p3 = sp[sll];
333
334 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + pbuff[j]);
335 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + pbuff[j + 1]);
336
337 dp[0 ] = FROM_S32(d0);
338 dp[dll] = FROM_S32(d1);
339
340 pbuff[j] = 0;
341 pbuff[j + 1] = 0;
342
343 sp += 2*sll;
344 dp += 2*dll;
345 }
346
347 if (j < hsize) {
348 p0 = p2; p1 = p3;
349 p2 = sp[0];
350
351 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + pbuff[j]);
352
353 pbuff[j] = 0;
354
355 dp[0] = FROM_S32(d0);
356 }
357
358 } else if (kh == 2) {
359 sp += sll;
360
361 for (j = 0; j <= (hsize - 2); j += 2) {
362 p0 = p2;
363 p1 = sp[0];
364 p2 = sp[sll];
365
366 d0 = D2I(p0*k0 + p1*k1 + pbuff[j]);
367 d1 = D2I(p1*k0 + p2*k1 + pbuff[j + 1]);
368
369 dp[0 ] = FROM_S32(d0);
370 dp[dll] = FROM_S32(d1);
371
372 pbuff[j] = 0;
373 pbuff[j + 1] = 0;
374
375 sp += 2*sll;
376 dp += 2*dll;
377 }
378
379 if (j < hsize) {
380 p0 = p2;
381 p1 = sp[0];
382
383 d0 = D2I(p0*k0 + p1*k1 + pbuff[j]);
384
385 pbuff[j] = 0;
386
387 dp[0] = FROM_S32(d0);
388 }
389
390 } else /* if (kh == 1) */ {
391 for (j = 0; j < hsize; j++) {
392 p0 = sp[0];
393
394 d0 = D2I(p0*k0 + pbuff[j]);
395
396 dp[0] = FROM_S32(d0);
397
398 pbuff[j] = 0;
399
400 sp += sll;
401 dp += dll;
402 }
403 }
404
405 sl += chan1;
406 dl += chan1;
407 }
408 }
409
410 sl_c += max_hsize*sll;
483 buffd = buffs[n] + wid;
484 buffo = (mlib_s32*)(buffd + wid);
485 buffi = buffo + (wid &~ 1);
486
487 chan1 = nchannel;
488 chan2 = chan1 + chan1;
489
490 wid -= (m - 1);
491 hgt -= (n - 1);
492 adr_dst += dn*dll + dm*nchannel;
493
494 for (c = 0; c < nchannel; c++) {
495 if (!(cmask & (1 << (chan1 - 1 - c)))) continue;
496
497 sl = adr_src + c;
498 dl = adr_dst + c;
499
500 for (l = 0; l < n; l++) {
501 FTYPE *buff = buffs[l];
502
503 for (i = 0; i < wid + (m - 1); i++) {
504 buff[i] = (FTYPE)sl[i*chan1];
505 }
506
507 sl += sll;
508 }
509
510 buff_ind = 0;
511
512 for (i = 0; i < wid; i++) buffd[i] = 0.0;
513
514 for (j = 0; j < hgt; j++) {
515 FTYPE **buffc = buffs + buff_ind;
516 FTYPE *buffn = buffc[n];
517 FTYPE *pk = k;
518
519 for (l = 0; l < n; l++) {
520 FTYPE *buff_l = buffc[l];
521
522 for (off = 0; off < m;) {
523 FTYPE *buff = buff_l + off;
524
525 kw = m - off;
526
527 if (kw > 2*MAX_KER) kw = MAX_KER; else
528 if (kw > MAX_KER) kw = kw/2;
529 off += kw;
530
531 sp = sl;
532 dp = dl;
533
534 p2 = buff[0]; p3 = buff[1]; p4 = buff[2];
535 p5 = buff[3]; p6 = buff[4]; p7 = buff[5];
536
537 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
538 k4 = pk[4]; k5 = pk[5]; k6 = pk[6];
539 pk += kw;
540
541 if (kw == 7) {
542
543 if (l < (n - 1) || off < m) {
544 for (i = 0; i <= (wid - 2); i += 2) {
545 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
546
547 p6 = buff[i + 6]; p7 = buff[i + 7];
548
549 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6;
550 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6;
551 }
552
553 } else {
554 for (i = 0; i <= (wid - 2); i += 2) {
555 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
556
557 p6 = buff[i + 6]; p7 = buff[i + 7];
558
559 LOAD_BUFF(buffi);
560
561 dd.d64 = *(FTYPE *)(buffi + i);
562 buffn[i ] = (FTYPE)dd.i32s.i0;
563 buffn[i + 1] = (FTYPE)dd.i32s.i1;
564
565 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6 + buffd[i ]);
566 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6 + buffd[i + 1]);
567
568 dp[0 ] = FROM_S32(d0);
569 dp[chan1] = FROM_S32(d1);
570
571 buffd[i ] = 0.0;
572 buffd[i + 1] = 0.0;
573
574 sp += chan2;
575 dp += chan2;
576 }
577 }
578
579 } else if (kw == 6) {
580
581 if (l < (n - 1) || off < m) {
582 for (i = 0; i <= (wid - 2); i += 2) {
583 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
584
585 p5 = buff[i + 5]; p6 = buff[i + 6];
586
587 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5;
588 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5;
589 }
590
591 } else {
592 for (i = 0; i <= (wid - 2); i += 2) {
593 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
594
595 p5 = buff[i + 5]; p6 = buff[i + 6];
596
597 buffn[i ] = (FTYPE)sp[0];
598 buffn[i + 1] = (FTYPE)sp[chan1];
599
600 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + buffd[i ]);
601 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + buffd[i + 1]);
602
603 dp[0 ] = FROM_S32(d0);
604 dp[chan1] = FROM_S32(d1);
605
606 buffd[i ] = 0.0;
607 buffd[i + 1] = 0.0;
608
609 sp += chan2;
610 dp += chan2;
611 }
612 }
613
614 } else if (kw == 5) {
615
616 if (l < (n - 1) || off < m) {
617 for (i = 0; i <= (wid - 2); i += 2) {
618 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
619
620 p4 = buff[i + 4]; p5 = buff[i + 5];
621
622 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4;
623 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4;
624 }
625
626 } else {
627 for (i = 0; i <= (wid - 2); i += 2) {
628 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
629
630 p4 = buff[i + 4]; p5 = buff[i + 5];
631
632 buffn[i ] = (FTYPE)sp[0];
633 buffn[i + 1] = (FTYPE)sp[chan1];
634
635 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + buffd[i ]);
636 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + buffd[i + 1]);
637
638 dp[0 ] = FROM_S32(d0);
639 dp[chan1] = FROM_S32(d1);
640
641 buffd[i ] = 0.0;
642 buffd[i + 1] = 0.0;
643
644 sp += chan2;
645 dp += chan2;
646 }
647 }
648
649 } else if (kw == 4) {
650
651 if (l < (n - 1) || off < m) {
652 for (i = 0; i <= (wid - 2); i += 2) {
653 p0 = p2; p1 = p3; p2 = p4;
654
655 p3 = buff[i + 3]; p4 = buff[i + 4];
656
657 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
658 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
659 }
660
661 } else {
662 for (i = 0; i <= (wid - 2); i += 2) {
663 p0 = p2; p1 = p3; p2 = p4;
664
665 p3 = buff[i + 3]; p4 = buff[i + 4];
666
667 buffn[i ] = (FTYPE)sp[0];
668 buffn[i + 1] = (FTYPE)sp[chan1];
669
670 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + p3*k3 + buffd[i ]);
671 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + p4*k3 + buffd[i + 1]);
672
673 dp[0 ] = FROM_S32(d0);
674 dp[chan1] = FROM_S32(d1);
675
676 buffd[i ] = 0.0;
677 buffd[i + 1] = 0.0;
678
679 sp += chan2;
680 dp += chan2;
681 }
682 }
683
684 } else if (kw == 3) {
685
686 if (l < (n - 1) || off < m) {
687 for (i = 0; i <= (wid - 2); i += 2) {
688 p0 = p2; p1 = p3;
689
690 p2 = buff[i + 2]; p3 = buff[i + 3];
691
692 buffd[i ] += p0*k0 + p1*k1 + p2*k2;
693 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2;
694 }
695
696 } else {
697 for (i = 0; i <= (wid - 2); i += 2) {
698 p0 = p2; p1 = p3;
699
700 p2 = buff[i + 2]; p3 = buff[i + 3];
701
702 buffn[i ] = (FTYPE)sp[0];
703 buffn[i + 1] = (FTYPE)sp[chan1];
704
705 d0 = D2I(p0*k0 + p1*k1 + p2*k2 + buffd[i ]);
706 d1 = D2I(p1*k0 + p2*k1 + p3*k2 + buffd[i + 1]);
707
708 dp[0 ] = FROM_S32(d0);
709 dp[chan1] = FROM_S32(d1);
710
711 buffd[i ] = 0.0;
712 buffd[i + 1] = 0.0;
713
714 sp += chan2;
715 dp += chan2;
716 }
717 }
718
719 } else /*if (kw == 2)*/ {
720
721 if (l < (n - 1) || off < m) {
722 for (i = 0; i <= (wid - 2); i += 2) {
723 p0 = p2;
724
725 p1 = buff[i + 1]; p2 = buff[i + 2];
726
727 buffd[i ] += p0*k0 + p1*k1;
728 buffd[i + 1] += p1*k0 + p2*k1;
729 }
730
731 } else {
732 for (i = 0; i <= (wid - 2); i += 2) {
733 p0 = p2;
734
735 p1 = buff[i + 1]; p2 = buff[i + 2];
736
737 buffn[i ] = (FTYPE)sp[0];
738 buffn[i + 1] = (FTYPE)sp[chan1];
739
740 d0 = D2I(p0*k0 + p1*k1 + buffd[i ]);
741 d1 = D2I(p1*k0 + p2*k1 + buffd[i + 1]);
742
743 dp[0 ] = FROM_S32(d0);
744 dp[chan1] = FROM_S32(d1);
745
746 buffd[i ] = 0.0;
747 buffd[i + 1] = 0.0;
748
749 sp += chan2;
750 dp += chan2;
751 }
773 sp += chan1;
774 dp += chan1;
775 }
776
777 for (l = 0; l < (m - 1); l++) buffn[wid + l] = sp[l*chan1];
778
779 /* next line */
780 sl += sll;
781 dl += dll;
782
783 buff_ind++;
784
785 if (buff_ind >= n + 1) buff_ind = 0;
786 }
787 }
788
789 FREE_AND_RETURN_STATUS;
790 }
791
792 /***************************************************************/
793 /* for x86, using integer multiplies is faster */
794
795 #define STORE_RES(res, x) \
796 x >>= shift2; \
797 CLAMP_STORE(res, x)
798
799 mlib_status CONV_FUNC_I(MxN)(mlib_image *dst,
800 const mlib_image *src,
801 const mlib_s32 *kernel,
802 mlib_s32 m,
803 mlib_s32 n,
804 mlib_s32 dm,
805 mlib_s32 dn,
806 mlib_s32 scale,
807 mlib_s32 cmask)
808 {
809 mlib_s32 buff[BUFF_SIZE], *buffd = buff;
810 mlib_s32 l, off, kw;
811 mlib_s32 d0, d1, shift1, shift2;
812 mlib_s32 k0, k1, k2, k3, k4, k5, k6;
813 mlib_s32 p0, p1, p2, p3, p4, p5, p6, p7;
842
843 if (m*n > MAX_N*MAX_N) {
844 k = mlib_malloc(sizeof(mlib_s32)*(m*n));
845
846 if (k == NULL) {
847 if (buffd != buff) mlib_free(buffd);
848 return MLIB_FAILURE;
849 }
850 }
851
852 for (i = 0; i < m*n; i++) {
853 k[i] = kernel[i] >> shift1;
854 }
855
856 for (c = 0; c < nchannel; c++) {
857 if (!(cmask & (1 << (nchannel - 1 - c)))) continue;
858
859 sl = adr_src + c;
860 dl = adr_dst + c;
861
862 for (i = 0; i < wid; i++) buffd[i] = 0;
863
864 for (j = 0; j < hgt; j++) {
865 mlib_s32 *pk = k;
866
867 for (l = 0; l < n; l++) {
868 DTYPE *sp0 = sl + l*sll;
869
870 for (off = 0; off < m;) {
871 sp = sp0 + off*chan1;
872 dp = dl;
873
874 kw = m - off;
875
876 if (kw > 2*MAX_KER) kw = MAX_KER; else
877 if (kw > MAX_KER) kw = kw/2;
878 off += kw;
879
880 p2 = sp[0]; p3 = sp[chan1]; p4 = sp[chan2];
881 p5 = sp[chan2 + chan1]; p6 = sp[chan2 + chan2]; p7 = sp[5*chan1];
882
883 k0 = pk[0]; k1 = pk[1]; k2 = pk[2]; k3 = pk[3];
884 k4 = pk[4]; k5 = pk[5]; k6 = pk[6];
885 pk += kw;
886
887 sp += (kw - 1)*chan1;
888
889 if (kw == 7) {
890
891 if (l < (n - 1) || off < m) {
892 for (i = 0; i <= (wid - 2); i += 2) {
893 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
894 p6 = sp[0];
895 p7 = sp[chan1];
896
897 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6;
898 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6;
899
900 sp += chan2;
901 }
902
903 } else {
904 for (i = 0; i <= (wid - 2); i += 2) {
905 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6; p5 = p7;
906 p6 = sp[0];
907 p7 = sp[chan1];
908
909 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + p6*k6 + buffd[i ]);
910 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + p7*k6 + buffd[i + 1]);
911
912 STORE_RES(dp[0 ], d0);
913 STORE_RES(dp[chan1], d1);
914
915 buffd[i ] = 0;
916 buffd[i + 1] = 0;
917
918 sp += chan2;
919 dp += chan2;
920 }
921 }
922
923 } else if (kw == 6) {
924
925 if (l < (n - 1) || off < m) {
926 for (i = 0; i <= (wid - 2); i += 2) {
927 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
928 p5 = sp[0];
929 p6 = sp[chan1];
930
931 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5;
932 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5;
933
934 sp += chan2;
935 }
936
937 } else {
938 for (i = 0; i <= (wid - 2); i += 2) {
939 p0 = p2; p1 = p3; p2 = p4; p3 = p5; p4 = p6;
940 p5 = sp[0];
941 p6 = sp[chan1];
942
943 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + p5*k5 + buffd[i ]);
944 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + p6*k5 + buffd[i + 1]);
945
946 STORE_RES(dp[0 ], d0);
947 STORE_RES(dp[chan1], d1);
948
949 buffd[i ] = 0;
950 buffd[i + 1] = 0;
951
952 sp += chan2;
953 dp += chan2;
954 }
955 }
956
957 } else if (kw == 5) {
958
959 if (l < (n - 1) || off < m) {
960 for (i = 0; i <= (wid - 2); i += 2) {
961 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
962 p4 = sp[0];
963 p5 = sp[chan1];
964
965 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4;
966 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4;
967
968 sp += chan2;
969 }
970
971 } else {
972 for (i = 0; i <= (wid - 2); i += 2) {
973 p0 = p2; p1 = p3; p2 = p4; p3 = p5;
974 p4 = sp[0];
975 p5 = sp[chan1];
976
977 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + p4*k4 + buffd[i ]);
978 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + p5*k4 + buffd[i + 1]);
979
980 STORE_RES(dp[0 ], d0);
981 STORE_RES(dp[chan1], d1);
982
983 buffd[i ] = 0;
984 buffd[i + 1] = 0;
985
986 sp += chan2;
987 dp += chan2;
988 }
989 }
990
991 } else if (kw == 4) {
992
993 if (l < (n - 1) || off < m) {
994 for (i = 0; i <= (wid - 2); i += 2) {
995 p0 = p2; p1 = p3; p2 = p4;
996 p3 = sp[0];
997 p4 = sp[chan1];
998
999 buffd[i ] += p0*k0 + p1*k1 + p2*k2 + p3*k3;
1000 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2 + p4*k3;
1001
1002 sp += chan2;
1003 }
1004
1005 } else {
1006 for (i = 0; i <= (wid - 2); i += 2) {
1007 p0 = p2; p1 = p3; p2 = p4;
1008 p3 = sp[0];
1009 p4 = sp[chan1];
1010
1011 d0 = (p0*k0 + p1*k1 + p2*k2 + p3*k3 + buffd[i ]);
1012 d1 = (p1*k0 + p2*k1 + p3*k2 + p4*k3 + buffd[i + 1]);
1013
1014 STORE_RES(dp[0 ], d0);
1015 STORE_RES(dp[chan1], d1);
1016
1017 buffd[i ] = 0;
1018 buffd[i + 1] = 0;
1019
1020 sp += chan2;
1021 dp += chan2;
1022 }
1023 }
1024
1025 } else if (kw == 3) {
1026
1027 if (l < (n - 1) || off < m) {
1028 for (i = 0; i <= (wid - 2); i += 2) {
1029 p0 = p2; p1 = p3;
1030 p2 = sp[0];
1031 p3 = sp[chan1];
1032
1033 buffd[i ] += p0*k0 + p1*k1 + p2*k2;
1034 buffd[i + 1] += p1*k0 + p2*k1 + p3*k2;
1035
1036 sp += chan2;
1037 }
1038
1039 } else {
1040 for (i = 0; i <= (wid - 2); i += 2) {
1041 p0 = p2; p1 = p3;
1042 p2 = sp[0];
1043 p3 = sp[chan1];
1044
1045 d0 = (p0*k0 + p1*k1 + p2*k2 + buffd[i ]);
1046 d1 = (p1*k0 + p2*k1 + p3*k2 + buffd[i + 1]);
1047
1048 STORE_RES(dp[0 ], d0);
1049 STORE_RES(dp[chan1], d1);
1050
1051 buffd[i ] = 0;
1052 buffd[i + 1] = 0;
1053
1054 sp += chan2;
1055 dp += chan2;
1056 }
1057 }
1058
1059 } else if (kw == 2) {
1060
1061 if (l < (n - 1) || off < m) {
1062 for (i = 0; i <= (wid - 2); i += 2) {
1063 p0 = p2;
1064 p1 = sp[0];
1065 p2 = sp[chan1];
1066
1067 buffd[i ] += p0*k0 + p1*k1;
1068 buffd[i + 1] += p1*k0 + p2*k1;
1069
1070 sp += chan2;
1071 }
1072
1073 } else {
1074 for (i = 0; i <= (wid - 2); i += 2) {
1075 p0 = p2;
1076 p1 = sp[0];
1077 p2 = sp[chan1];
1078
1079 d0 = (p0*k0 + p1*k1 + buffd[i ]);
1080 d1 = (p1*k0 + p2*k1 + buffd[i + 1]);
1081
1082 STORE_RES(dp[0 ], d0);
1083 STORE_RES(dp[chan1], d1);
1084
1085 buffd[i ] = 0;
1086 buffd[i + 1] = 0;
1087
1088 sp += chan2;
1089 dp += chan2;
1090 }
1091 }
1092
1093 } else /*if (kw == 1)*/ {
1094
1095 if (l < (n - 1) || off < m) {
1096 for (i = 0; i <= (wid - 2); i += 2) {
1097 p0 = sp[0];
1098 p1 = sp[chan1];
1099
1100 buffd[i ] += p0*k0;
1101 buffd[i + 1] += p1*k0;
1102
1103 sp += chan2;
1104 }
1105
1106 } else {
1107 for (i = 0; i <= (wid - 2); i += 2) {
1108 p0 = sp[0];
1109 p1 = sp[chan1];
1110
1111 d0 = (p0*k0 + buffd[i ]);
1112 d1 = (p1*k0 + buffd[i + 1]);
1113
1114 STORE_RES(dp[0 ], d0);
1115 STORE_RES(dp[chan1], d1);
1116
1117 buffd[i ] = 0;
1118 buffd[i + 1] = 0;
1119
1120 sp += chan2;
1121 dp += chan2;
1122 }
1123 }
1124 }
1125 }
1126 }
1139 pk ++;
1140 }
1141 }
1142
1143 STORE_RES(dp[0], s);
1144
1145 sp += chan1;
1146 dp += chan1;
1147 }
1148
1149 sl += sll;
1150 dl += dll;
1151 }
1152 }
1153
1154 if (buffd != buff) mlib_free(buffd);
1155 if (k != k_locl) mlib_free(k);
1156
1157 return MLIB_SUCCESS;
1158 }
1159
1160 /***************************************************************/
|