[ViewVC] Diff of: radiance/ray/src/util/rmatrix.c

Comparing ray/src/util/rmatrix.c (file contents):
Revision 2.1 by greg, Sat May 31 05:02:37 2014 UTC vs.
Revision 2.48 by greg, Thu Mar 18 00:34:31 2021 UTC

#	Line 5 \| Line 5 \| static const char RCSid[] = "$Id$";
5		* General matrix operations.
6		*/
7
8	–	#include <stdio.h>
8		#include <stdlib.h>
9	<	#include <string.h>
10	<	#include <fcntl.h>
9	>	#include <errno.h>
10	>	#include "rtio.h"
11	>	#include "platform.h"
12		#include "resolu.h"
13	+	#include "paths.h"
14		#include "rmatrix.h"
15
16	<	typedef struct {
16	<	int nrows, ncols, ncomp;
17	<	int dtype;
18	<	} DMINFO;
16	>	static char rmx_mismatch_warn[] = "WARNING: data type mismatch\n";
17
18		/* Allocate a nr x nc matrix with n components */
19		RMATRIX *
#	Line 26 \| Line 24 \| rmx_alloc(int nr, int nc, int n)
24		if ((nr <= 0) \| (nc <= 0) \| (n <= 0))
25		return(NULL);
26		dnew = (RMATRIX *)malloc(sizeof(RMATRIX)-sizeof(dnew->mtx) +
27	<	sizeof(dnew->mtx[0])(nnr*nc));
28	<	if (dnew == NULL)
27	>	sizeof(dnew->mtx[0])nnr*nc);
28	>	if (!dnew)
29		return(NULL);
30		dnew->nrows = nr; dnew->ncols = nc; dnew->ncomp = n;
31	+	dnew->dtype = DTdouble;
32	+	dnew->swapin = 0;
33	+	dnew->info = NULL;
34		return(dnew);
35		}
36
37	+	/* Free a RMATRIX array */
38	+	void
39	+	rmx_free(RMATRIX *rm)
40	+	{
41	+	if (!rm) return;
42	+	if (rm->info)
43	+	free(rm->info);
44	+	free(rm);
45	+	}
46	+
47	+	/* Resolve data type based on two input types (returns 0 for mismatch) */
48	+	int
49	+	rmx_newtype(int dtyp1, int dtyp2)
50	+	{
51	+	if ((dtyp1==DTxyze) \| (dtyp1==DTrgbe) \|
52	+	(dtyp2==DTxyze) \| (dtyp2==DTrgbe)
53	+	&& dtyp1 != dtyp2)
54	+	return(0);
55	+	if (dtyp1 < dtyp2)
56	+	return(dtyp1);
57	+	return(dtyp2);
58	+	}
59	+
60	+	/* Append header information associated with matrix data */
61	+	int
62	+	rmx_addinfo(RMATRIX rm, const char info)
63	+	{
64	+	if (!rm \|\| !info \|\| !*info)
65	+	return(0);
66	+	if (!rm->info) {
67	+	rm->info = (char *)malloc(strlen(info)+1);
68	+	if (rm->info) rm->info[0] = '\0';
69	+	} else
70	+	rm->info = (char *)realloc(rm->info,
71	+	strlen(rm->info)+strlen(info)+1);
72	+	if (!rm->info)
73	+	return(0);
74	+	strcat(rm->info, info);
75	+	return(1);
76	+	}
77	+
78		static int
79		get_dminfo(char s, void p)
80		{
81	<	DMINFO ip = (DMINFO )p;
82	<	char fmt[32];
81	>	RMATRIX ip = (RMATRIX )p;
82	>	char fmt[MAXFMTLEN];
83		int i;
84
85	+	if (headidval(fmt, s))
86	+	return(0);
87		if (!strncmp(s, "NCOMP=", 6)) {
88		ip->ncomp = atoi(s+6);
89		return(0);
#	Line 52 \| Line 96 \| *get_dminfo(char s, void p)*
96		ip->ncols = atoi(s+6);
97		return(0);
98		}
99	<	if (!formatval(fmt, s))
99	>	if ((i = isbigendian(s)) >= 0) {
100	>	ip->swapin = (nativebigendian() != i);
101		return(0);
102	+	}
103	+	if (isexpos(s)) {
104	+	double d = exposval(s);
105	+	scalecolor(ip->mtx, d);
106	+	return(0);
107	+	}
108	+	if (iscolcor(s)) {
109	+	COLOR ctmp;
110	+	colcorval(ctmp, s);
111	+	multcolor(ip->mtx, ctmp);
112	+	return(0);
113	+	}
114	+	if (!formatval(fmt, s)) {
115	+	rmx_addinfo(ip, s);
116	+	return(0);
117	+	}
118		for (i = 1; i < DTend; i++)
119		if (!strcmp(fmt, cm_fmt_id[i])) {
120		ip->dtype = i;
#	Line 66 \| Line 127 \| static int
127		rmx_load_ascii(RMATRIX rm, FILE fp)
128		{
129		int i, j, k;
130	<	#ifdef _WIN32
70	<	_setmode(fileno(fp), _O_TEXT);
71	<	#endif
130	>
131		for (i = 0; i < rm->nrows; i++)
132		for (j = 0; j < rm->ncols; j++)
133		for (k = 0; k < rm->ncomp; k++)
#	Line 89 \| Line 148 \| *rmx_load_float(RMATRIX rm, FILE fp)*
148		}
149		for (i = 0; i < rm->nrows; i++)
150		for (j = 0; j < rm->ncols; j++) {
151	<	if (fread(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
151	>	if (getbinary(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
152		return(0);
153	+	if (rm->swapin)
154	+	swap32((char *)val, rm->ncomp);
155		for (k = rm->ncomp; k--; )
156		rmx_lval(rm,i,j,k) = val[k];
157		}
#	Line 100 \| Line 161 \| *rmx_load_float(RMATRIX rm, FILE fp)*
161		static int
162		rmx_load_double(RMATRIX rm, FILE fp)
163		{
164	<	int i, j, k;
104	<	double val[100];
164	>	int i;
165
166	<	if (rm->ncomp > 100) {
167	<	fputs("Unsupported # components in rmx_load_double()\n", stderr);
166	>	if ((char )&rmx_lval(rm,1,0,0) - (char )&rmx_lval(rm,0,0,0) !=
167	>	sizeof(double)rm->ncolsrm->ncomp) {
168	>	fputs("Code error in rmx_load_double()\n", stderr);
169		exit(1);
170		}
171	<	for (i = 0; i < rm->nrows; i++)
172	<	for (j = 0; j < rm->ncols; j++) {
173	<	if (fread(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
174	<	return(0);
175	<	for (k = rm->ncomp; k--; )
176	<	rmx_lval(rm,i,j,k) = val[k];
177	<	}
171	>	for (i = 0; i < rm->nrows; i++) {
172	>	if (getbinary(&rmx_lval(rm,i,0,0), sizeof(double)*rm->ncomp,
173	>	rm->ncols, fp) != rm->ncols)
174	>	return(0);
175	>	if (rm->swapin)
176	>	swap64((char )&rmx_lval(rm,i,0,0), rm->ncolsrm->ncomp);
177	>	}
178		return(1);
179		}
180
#	Line 123 \| Line 184 \| *rmx_load_rgbe(RMATRIX rm, FILE fp)*
184		COLOR scan = (COLOR )malloc(sizeof(COLOR)*rm->ncols);
185		int i, j;
186
187	<	if (scan == NULL)
187	>	if (!scan)
188		return(0);
189		for (i = 0; i < rm->nrows; i++) {
190		if (freadscan(scan, rm->ncols, fp) < 0) {
#	Line 142 \| Line 203 \| *rmx_load_rgbe(RMATRIX rm, FILE fp)*
203
204		/* Load matrix from supported file type */
205		RMATRIX *
206	<	rmx_load(const char *fname)
206	>	rmx_load(const char *inspec, RMPref rmp)
207		{
208	<	FILE *fp = stdin;
209	<	DMINFO dinfo;
208	>	FILE *fp;
209	>	RMATRIX dinfo;
210		RMATRIX *dnew;
211
212	<	if (fname == NULL) { /* reading from stdin? */
213	<	fname = "<stdin>";
212	>	if (!inspec)
213	>	inspec = stdin_name;
214	>	else if (!*inspec)
215	>	return(NULL);
216	>	if (inspec == stdin_name) { /* reading from stdin? */
217	>	fp = stdin;
218	>	} else if (inspec[0] == '!') {
219	>	if (!(fp = popen(inspec+1, "r")))
220	>	return(NULL);
221		} else {
222	<	const char sp = fname; / check suffix */
222	>	const char sp = inspec; / check suffix */
223		while (*sp)
224		++sp;
225	<	while (sp > fname && sp[-1] != '.')
225	>	while (sp > inspec && sp[-1] != '.')
226		--sp;
227		if (!strcasecmp(sp, "XML")) { /* assume it's a BSDF */
228	<	CMATRIX cm = cm_loadBTDF((char )fname);
229	<	if (cm == NULL)
228	>	CMATRIX *cm = rmp==RMPtrans ? cm_loadBTDF(inspec) :
229	>	cm_loadBRDF(inspec, rmp==RMPreflB) ;
230	>	if (!cm)
231		return(NULL);
232		dnew = rmx_from_cmatrix(cm);
233		cm_free(cm);
234	+	dnew->dtype = DTascii;
235		return(dnew);
236		}
237		/* else open it ourselves */
238	<	if ((fp = fopen(fname, "rb")) == NULL)
238	>	if (!(fp = fopen(inspec, "r")))
239		return(NULL);
240		}
241	+	SET_FILE_BINARY(fp);
242		#ifdef getc_unlocked
243		flockfile(fp);
244		#endif
245		dinfo.nrows = dinfo.ncols = dinfo.ncomp = 0;
246	<	dinfo.dtype = DTascii;
247	<	if (getheader(fp, &get_dminfo, &dinfo) < 0) {
246	>	dinfo.dtype = DTascii; /* assumed w/o FORMAT */
247	>	dinfo.swapin = 0;
248	>	dinfo.info = NULL;
249	>	dinfo.mtx[0] = dinfo.mtx[1] = dinfo.mtx[2] = 1.;
250	>	if (getheader(fp, get_dminfo, &dinfo) < 0) {
251		fclose(fp);
252		return(NULL);
253		}
254	<	if ((dinfo.dtype == DTrgbe) \| (dinfo.dtype == DTxyze)) {
254	>	if ((dinfo.nrows <= 0) \| (dinfo.ncols <= 0)) {
255		if (!fscnresolu(&dinfo.ncols, &dinfo.nrows, fp)) {
256		fclose(fp);
257		return(NULL);
258		}
259	<	dinfo.ncomp = 3;
259	>	if (dinfo.ncomp <= 0)
260	>	dinfo.ncomp = 3;
261	>	else if ((dinfo.dtype == DTrgbe) \| (dinfo.dtype == DTxyze) &&
262	>	dinfo.ncomp != 3) {
263	>	fclose(fp);
264	>	return(NULL);
265	>	}
266		}
267		dnew = rmx_alloc(dinfo.nrows, dinfo.ncols, dinfo.ncomp);
268	<	if (dnew == NULL) {
268	>	if (!dnew) {
269		fclose(fp);
270		return(NULL);
271		}
272	+	dnew->info = dinfo.info;
273		switch (dinfo.dtype) {
274		case DTascii:
275	+	SET_FILE_TEXT(fp);
276		if (!rmx_load_ascii(dnew, fp))
277		goto loaderr;
278	+	dnew->dtype = DTascii; /* should leave double? */
279		break;
280		case DTfloat:
281	+	dnew->swapin = dinfo.swapin;
282		if (!rmx_load_float(dnew, fp))
283		goto loaderr;
284	+	dnew->dtype = DTfloat;
285		break;
286		case DTdouble:
287	+	dnew->swapin = dinfo.swapin;
288		if (!rmx_load_double(dnew, fp))
289		goto loaderr;
290	+	dnew->dtype = DTdouble;
291		break;
292		case DTrgbe:
293		case DTxyze:
294		if (!rmx_load_rgbe(dnew, fp))
295		goto loaderr;
296	+	dnew->dtype = dinfo.dtype; /* undo exposure? */
297	+	if ((dinfo.mtx[0] != 1.) \| (dinfo.mtx[1] != 1.) \|
298	+	(dinfo.mtx[2] != 1.)) {
299	+	dinfo.mtx[0] = 1./dinfo.mtx[0];
300	+	dinfo.mtx[1] = 1./dinfo.mtx[1];
301	+	dinfo.mtx[2] = 1./dinfo.mtx[2];
302	+	rmx_scale(dnew, dinfo.mtx);
303	+	}
304		break;
305		default:
306		goto loaderr;
307		}
308	<	if (fp != stdin)
309	<	fclose(fp);
308	>	if (fp != stdin) {
309	>	if (inspec[0] == '!')
310	>	pclose(fp);
311	>	else
312	>	fclose(fp);
313	>	}
314	>	#ifdef getc_unlocked
315	>	else
316	>	funlockfile(fp);
317	>	#endif
318		return(dnew);
319		loaderr: /* should report error? */
320	<	fclose(fp);
320	>	if (inspec[0] == '!')
321	>	pclose(fp);
322	>	else
323	>	fclose(fp);
324		rmx_free(dnew);
325		return(NULL);
326		}
#	Line 222 \| Line 328 \| *loaderr: / should report error? /*
328		static int
329		rmx_write_ascii(const RMATRIX rm, FILE fp)
330		{
331	+	const char *fmt = (rm->dtype == DTfloat) ? " %.7e" :
332	+	(rm->dtype == DTrgbe) \| (rm->dtype == DTxyze) ? " %.3e" :
333	+	" %.15e" ;
334		int i, j, k;
335	<	#ifdef _WIN32
227	<	_setmode(fileno(fp), _O_TEXT);
228	<	#endif
335	>
336		for (i = 0; i < rm->nrows; i++) {
337		for (j = 0; j < rm->ncols; j++) {
338		for (k = 0; k < rm->ncomp; k++)
339	<	fprintf(fp, " %.15e", rmx_lval(rm,i,j,k));
339	>	fprintf(fp, fmt, rmx_lval(rm,i,j,k));
340		fputc('\t', fp);
341		}
342		fputc('\n', fp);
#	Line 251 \| Line 358 \| *rmx_write_float(const RMATRIX rm, FILE fp)*
358		for (j = 0; j < rm->ncols; j++) {
359		for (k = rm->ncomp; k--; )
360		val[k] = (float)rmx_lval(rm,i,j,k);
361	<	if (fwrite(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
361	>	if (putbinary(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
362		return(0);
363		}
364		return(1);
#	Line 260 \| Line 367 \| *rmx_write_float(const RMATRIX rm, FILE fp)*
367		static int
368		rmx_write_double(const RMATRIX rm, FILE fp)
369		{
370	<	int i, j, k;
264	<	double val[100];
370	>	int i, j;
371
266	–	if (rm->ncomp > 100) {
267	–	fputs("Unsupported # components in rmx_write_double()\n", stderr);
268	–	exit(1);
269	–	}
372		for (i = 0; i < rm->nrows; i++)
373	<	for (j = 0; j < rm->ncols; j++) {
374	<	for (k = rm->ncomp; k--; )
273	<	val[k] = rmx_lval(rm,i,j,k);
274	<	if (fwrite(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
373	>	for (j = 0; j < rm->ncols; j++)
374	>	if (putbinary(&rmx_lval(rm,i,j,0), sizeof(double), rm->ncomp, fp) != rm->ncomp)
375		return(0);
276	–	}
376		return(1);
377		}
378
379		static int
380		rmx_write_rgbe(const RMATRIX rm, FILE fp)
381		{
382	<	COLOR scan = (COLOR )malloc(sizeof(COLOR)*rm->ncols);
382	>	COLR scan = (COLR )malloc(sizeof(COLR)*rm->ncols);
383		int i, j;
384
385	<	if (scan == NULL)
385	>	if (!scan)
386		return(0);
387		for (i = 0; i < rm->nrows; i++) {
388		for (j = rm->ncols; j--; )
389	<	setcolor(scan[j], rmx_lval(rm,i,j,0),
389	>	setcolr(scan[j], rmx_lval(rm,i,j,0),
390		rmx_lval(rm,i,j,1),
391		rmx_lval(rm,i,j,2) );
392	<	if (fwritescan(scan, rm->ncols, fp) < 0) {
392	>	if (fwritecolrs(scan, rm->ncols, fp) < 0) {
393		free(scan);
394		return(0);
395		}
#	Line 299 \| Line 398 \| *rmx_write_rgbe(const RMATRIX rm, FILE fp)*
398		return(1);
399		}
400
401	<	/* Write matrix to file type indicated by dt */
402	<	long
401	>	/* Check if CIE XYZ primaries were specified */
402	>	static int
403	>	findCIEprims(const char *info)
404	>	{
405	>	RGBPRIMS prims;
406	>
407	>	if (!info)
408	>	return(0);
409	>	info = strstr(info, PRIMARYSTR);
410	>	if (!info \|\| !primsval(prims, info))
411	>	return(0);
412	>
413	>	return((prims[RED][CIEX] > .99) & (prims[RED][CIEY] < .01) &&
414	>	(prims[GRN][CIEX] < .01) & (prims[GRN][CIEY] > .99) &&
415	>	(prims[BLU][CIEX] < .01) & (prims[BLU][CIEY] < .01));
416	>	}
417	>
418	>	/* Write matrix to file type indicated by dtype */
419	>	int
420		rmx_write(const RMATRIX rm, int dtype, FILE fp)
421		{
422		RMATRIX *mydm = NULL;
423		int ok = 1;
424
425	<	if ((rm == NULL) \| (fp == NULL))
425	>	if (!rm \| !fp)
426		return(0);
427	+	#ifdef getc_unlocked
428	+	flockfile(fp);
429	+	#endif
430		/* complete header */
431	+	if (rm->info)
432	+	fputs(rm->info, fp);
433	+	if (dtype == DTfromHeader)
434	+	dtype = rm->dtype;
435	+	else if (dtype == DTrgbe && (rm->dtype == DTxyze \|\|
436	+	findCIEprims(rm->info)))
437	+	dtype = DTxyze;
438	+	else if ((dtype == DTxyze) & (rm->dtype == DTrgbe))
439	+	dtype = DTrgbe;
440		if ((dtype != DTrgbe) & (dtype != DTxyze)) {
441		fprintf(fp, "NROWS=%d\n", rm->nrows);
442		fprintf(fp, "NCOLS=%d\n", rm->ncols);
#	Line 319 \| Line 447 \| *rmx_write(const RMATRIX rm, int dtype, FILE fp)*
447		return(0);
448		cmtx[0] = cmtx[1] = cmtx[2] = 1;
449		mydm = rmx_transform(rm, 3, cmtx);
450	<	if (mydm == NULL)
450	>	if (!mydm)
451		return(0);
452		rm = mydm;
453		}
454	+	if ((dtype == DTfloat) \| (dtype == DTdouble))
455	+	fputendian(fp); /* important to record */
456		fputformat((char *)cm_fmt_id[dtype], fp);
457		fputc('\n', fp);
458		switch (dtype) { /* write data */
#	Line 344 \| Line 474 \| *rmx_write(const RMATRIX rm, int dtype, FILE fp)*
474		return(0);
475		}
476		ok &= (fflush(fp) == 0);
477	<	rmx_free(mydm);
478	<	return(ftell(fp) * ok); /* return # bytes written */
477	>	#ifdef getc_unlocked
478	>	funlockfile(fp);
479	>	#endif
480	>	if (mydm)
481	>	rmx_free(mydm);
482	>	return(ok);
483		}
484
485		/* Allocate and assign square identity matrix with n components */
#	Line 353 \| Line 487 \| RMATRIX *
487		rmx_identity(const int dim, const int n)
488		{
489		RMATRIX *rid = rmx_alloc(dim, dim, n);
490	<	int i;
490	>	int i, k;
491
492	<	if (rid == NULL)
492	>	if (!rid)
493		return(NULL);
494	<	memset(rid->mtx, 0, sizeof(rid->mtx[0])dimdim);
494	>	memset(rid->mtx, 0, sizeof(rid->mtx[0])ndim*dim);
495		for (i = dim; i--; )
496	<	rmx_lval(rid,i,i,0) = 1;
497	<	for (i = n; --i; )
364	<	memcpy(rid->mtx+i(dimdim), rid->mtx,
365	<	sizeof(rid->mtx[0])dimdim);
496	>	for (k = n; k--; )
497	>	rmx_lval(rid,i,i,k) = 1;
498		return(rid);
499		}
500
#	Line 372 \| Line 504 \| *rmx_copy(const RMATRIX rm)**
504		{
505		RMATRIX *dnew;
506
507	<	if (rm == NULL)
507	>	if (!rm)
508		return(NULL);
509		dnew = rmx_alloc(rm->nrows, rm->ncols, rm->ncomp);
510	<	if (dnew == NULL)
510	>	if (!dnew)
511		return(NULL);
512	+	rmx_addinfo(dnew, rm->info);
513	+	dnew->dtype = rm->dtype;
514		memcpy(dnew->mtx, rm->mtx,
515		sizeof(rm->mtx[0])rm->ncomprm->nrows*rm->ncols);
516		return(dnew);
517		}
518
519	<	/* Swap rows and columns in the given matrix in situ */
520	<	int
521	<	rmx_transpose(RMATRIX *rm)
519	>	/* Allocate and assign transposed matrix */
520	>	RMATRIX *
521	>	rmx_transpose(const RMATRIX *rm)
522		{
523	<	RMATRIX dswap;
523	>	RMATRIX *dnew;
524		int i, j, k;
525
526	<	if (rm == NULL)
526	>	if (!rm)
527		return(0);
528	<	dswap.nrows = rm->ncols;
529	<	dswap.ncols = rm->nrows;
530	<	dswap.ncomp = rm->ncomp;
531	<	for (i = 1; i < rm->nrows; i++)
532	<	for (j = 0; j < i; j++)
533	<	for (k = rm->ncomp; k--; ) {
534	<	double *opp = rm->mtx + rmx_indx(&dswap,j,i,k);
535	<	double d = *opp;
536	<	*opp = rmx_lval(rm,i,j,k);
537	<	rmx_lval(rm,i,j,k) = d;
538	<	}
539	<	rm->nrows = dswap.nrows;
540	<	rm->ncols = dswap.ncols;
541	<	return(1);
528	>	if ((rm->nrows == 1) \| (rm->ncols == 1)) {
529	>	dnew = rmx_copy(rm);
530	>	if (!dnew)
531	>	return(NULL);
532	>	dnew->nrows = rm->ncols;
533	>	dnew->ncols = rm->nrows;
534	>	return(dnew);
535	>	}
536	>	dnew = rmx_alloc(rm->ncols, rm->nrows, rm->ncomp);
537	>	if (!dnew)
538	>	return(NULL);
539	>	if (rm->info) {
540	>	rmx_addinfo(dnew, rm->info);
541	>	rmx_addinfo(dnew, "Transposed rows and columns\n");
542	>	}
543	>	dnew->dtype = rm->dtype;
544	>	for (i = dnew->nrows; i--; )
545	>	for (j = dnew->ncols; j--; )
546	>	for (k = dnew->ncomp; k--; )
547	>	rmx_lval(dnew,i,j,k) = rmx_lval(rm,j,i,k);
548	>	return(dnew);
549		}
550
551		/* Multiply (concatenate) two matrices and allocate the result */
#	Line 414 \| Line 555 \| *rmx_multiply(const RMATRIX m1, const RMATRIX m2)*
555		RMATRIX *mres;
556		int i, j, k, h;
557
558	<	if ((m1 == NULL) \| (m2 == NULL) \|\|
418	<	(m1->ncomp != m2->ncomp) \| (m1->ncols != m2->nrows))
558	>	if (!m1 \| !m2 \|\| (m1->ncomp != m2->ncomp) \| (m1->ncols != m2->nrows))
559		return(NULL);
560		mres = rmx_alloc(m1->nrows, m2->ncols, m1->ncomp);
561	<	if (mres == NULL)
561	>	if (!mres)
562		return(NULL);
563	+	i = rmx_newtype(m1->dtype, m2->dtype);
564	+	if (i)
565	+	mres->dtype = i;
566	+	else
567	+	rmx_addinfo(mres, rmx_mismatch_warn);
568		for (i = mres->nrows; i--; )
569		for (j = mres->ncols; j--; )
570	<	for (h = m1->ncols; h--; ) {
570	>	for (k = mres->ncomp; k--; ) {
571		long double d = 0;
572	<	for (k = mres->ncomp; k--; )
573	<	d += (long double)rmx_lval(m1,i,h,k) *
429	<	(long double)rmx_lval(m2,h,j,k);
572	>	for (h = m1->ncols; h--; )
573	>	d += rmx_lval(m1,i,h,k) * rmx_lval(m2,h,j,k);
574		rmx_lval(mres,i,j,k) = (double)d;
575		}
576		return(mres);
577		}
578
579	+	/* Element-wise multiplication (or division) of m2 into m1 */
580	+	int
581	+	rmx_elemult(RMATRIX m1, const RMATRIX m2, int divide)
582	+	{
583	+	int zeroDivides = 0;
584	+	int i, j, k;
585	+
586	+	if (!m1 \| !m2 \|\| (m1->ncols != m2->ncols) \| (m1->nrows != m2->nrows))
587	+	return(0);
588	+	if ((m2->ncomp > 1) & (m2->ncomp != m1->ncomp))
589	+	return(0);
590	+	i = rmx_newtype(m1->dtype, m2->dtype);
591	+	if (i)
592	+	m1->dtype = i;
593	+	else
594	+	rmx_addinfo(m1, rmx_mismatch_warn);
595	+	for (i = m1->nrows; i--; )
596	+	for (j = m1->ncols; j--; )
597	+	if (divide) {
598	+	double d;
599	+	if (m2->ncomp == 1) {
600	+	d = rmx_lval(m2,i,j,0);
601	+	if (d == 0) {
602	+	++zeroDivides;
603	+	for (k = m1->ncomp; k--; )
604	+	rmx_lval(m1,i,j,k) = 0;
605	+	} else {
606	+	d = 1./d;
607	+	for (k = m1->ncomp; k--; )
608	+	rmx_lval(m1,i,j,k) *= d;
609	+	}
610	+	} else
611	+	for (k = m1->ncomp; k--; ) {
612	+	d = rmx_lval(m2,i,j,k);
613	+	if (d == 0) {
614	+	++zeroDivides;
615	+	rmx_lval(m1,i,j,k) = 0;
616	+	} else
617	+	rmx_lval(m1,i,j,k) /= d;
618	+	}
619	+	} else {
620	+	if (m2->ncomp == 1) {
621	+	const double d = rmx_lval(m2,i,j,0);
622	+	for (k = m1->ncomp; k--; )
623	+	rmx_lval(m1,i,j,k) *= d;
624	+	} else
625	+	for (k = m1->ncomp; k--; )
626	+	rmx_lval(m1,i,j,k) *= rmx_lval(m2,i,j,k);
627	+	}
628	+	if (zeroDivides) {
629	+	rmx_addinfo(m1, "WARNING: zero divide(s) corrupted results\n");
630	+	errno = ERANGE;
631	+	}
632	+	return(1);
633	+	}
634	+
635		/* Sum second matrix into first, applying scale factor beforehand */
636		int
637		rmx_sum(RMATRIX msum, const RMATRIX madd, const double sf[])
#	Line 439 \| Line 639 \| *rmx_sum(RMATRIX msum, const RMATRIX madd, const doub*
639		double *mysf = NULL;
640		int i, j, k;
641
642	<	if ((msum == NULL) \| (madd == NULL) \|\|
642	>	if (!msum \| !madd \|\|
643		(msum->nrows != madd->nrows) \|
644		(msum->ncols != madd->ncols) \|
645		(msum->ncomp != madd->ncomp))
646		return(0);
647	<	if (sf == NULL) {
647	>	if (!sf) {
648		mysf = (double )malloc(sizeof(double)msum->ncomp);
649	<	if (mysf == NULL)
649	>	if (!mysf)
650		return(0);
651		for (k = msum->ncomp; k--; )
652		mysf[k] = 1;
653		sf = mysf;
654		}
655	+	i = rmx_newtype(msum->dtype, madd->dtype);
656	+	if (i)
657	+	msum->dtype = i;
658	+	else
659	+	rmx_addinfo(msum, rmx_mismatch_warn);
660		for (i = msum->nrows; i--; )
661		for (j = msum->ncols; j--; )
662		for (k = msum->ncomp; k--; )
663		rmx_lval(msum,i,j,k) += sf[k] * rmx_lval(madd,i,j,k);
664	<
665	<	free(mysf);
664	>	if (mysf)
665	>	free(mysf);
666		return(1);
667		}
668
#	Line 467 \| Line 672 \| *rmx_scale(RMATRIX rm, const double sf[])**
672		{
673		int i, j, k;
674
675	<	if ((rm == NULL) \| (sf == NULL))
675	>	if (!rm \| !sf)
676		return(0);
677		for (i = rm->nrows; i--; )
678		for (j = rm->ncols; j--; )
679		for (k = rm->ncomp; k--; )
680		rmx_lval(rm,i,j,k) *= sf[k];
681
682	+	if (rm->info)
683	+	rmx_addinfo(rm, "Applied scalar\n");
684		return(1);
685		}
686
#	Line 484 \| Line 691 \| *rmx_transform(const RMATRIX msrc, int n, const double**
691		int i, j, ks, kd;
692		RMATRIX *dnew;
693
694	<	if ((msrc == NULL) \| (n <= 0) \| (cmat == NULL))
694	>	if (!msrc \| (n <= 0) \| !cmat)
695		return(NULL);
696		dnew = rmx_alloc(msrc->nrows, msrc->ncols, n);
697	<	if (dnew == NULL)
697	>	if (!dnew)
698		return(NULL);
699	+	if (msrc->info) {
700	+	char buf[128];
701	+	sprintf(buf, "Applied %dx%d component transform\n",
702	+	dnew->ncomp, msrc->ncomp);
703	+	rmx_addinfo(dnew, msrc->info);
704	+	rmx_addinfo(dnew, buf);
705	+	}
706	+	dnew->dtype = msrc->dtype;
707		for (i = dnew->nrows; i--; )
708		for (j = dnew->ncols; j--; )
709		for (kd = dnew->ncomp; kd--; ) {
#	Line 507 \| Line 722 \| *rmx_from_cmatrix(const CMATRIX cm)**
722		int i, j;
723		RMATRIX *dnew;
724
725	<	if (cm == NULL)
725	>	if (!cm)
726		return(NULL);
727		dnew = rmx_alloc(cm->nrows, cm->ncols, 3);
728	<	if (dnew == NULL)
728	>	if (!dnew)
729		return(NULL);
730	+	dnew->dtype = DTfloat;
731		for (i = dnew->nrows; i--; )
732		for (j = dnew->ncols; j--; ) {
733		const COLORV *cv = cm_lval(cm,i,j);
#	Line 529 \| Line 745 \| *cm_from_rmatrix(const RMATRIX rm)**
745		int i, j;
746		CMATRIX *cnew;
747
748	<	if (rm == NULL \|\| rm->ncomp != 3)
748	>	if (!rm \|\| rm->ncomp != 3)
749		return(NULL);
750		cnew = cm_alloc(rm->nrows, rm->ncols);
751	<	if (cnew == NULL)
751	>	if (!cnew)
752		return(NULL);
753		for (i = cnew->nrows; i--; )
754		for (j = cnew->ncols; j--; ) {

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/util/rmatrix.c (file contents): Revision 2.1 by greg, Sat May 31 05:02:37 2014 UTC vs. Revision 2.48 by greg, Thu Mar 18 00:34:31 2021 UTC

Diff Legend

Comparing ray/src/util/rmatrix.c (file contents):
Revision 2.1 by greg, Sat May 31 05:02:37 2014 UTC vs.
Revision 2.48 by greg, Thu Mar 18 00:34:31 2021 UTC